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In a conventional PSFB converter, switching loss, conduction loss, and... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_38875378" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">In high current power supply applications, phase shift full bridge zero voltage switching (PSFB ZVS) converters have been used with the benefit of ZVS technique. In a conventional PSFB converter, switching loss, conduction loss, and voltage drop on diodes of secondary side rectifier are experienced, and still left problems unsolved, especially with respect to high primary current. This paper presents parameters design of the PSFB with an additional resonant tank for high direct current applications considering all the problems mentioned above. Magnetizing inductance of transformer is determined. A series capacitor is added to reduce the high circulating current and current stress in the transformer. Both of these components are dealt as a resonant tank. Based on the characteristics of the resonant tank, ZVS area can be found. The voltage drop on diodes of secondary side rectifier can be stayed under limits, and conduction loss can be reduced if the capacitor and inductor are suitably parameterized. The parameters of transformer, resonant tank, and output filter are designed by proposed parameters design procedure. Simulation result demonstrates the switching loss, and conduction loss reduction by selecting the suitable values of magnetizing inductance, and resonant tank parameters. The performance of high current power supply is verified by the hardware experiment of a 500 A PSFB converter.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/38875378" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="14038ec48b2f5073e0009845b303d6b5" rel="nofollow" data-download="{"attachment_id":58971916,"asset_id":38875378,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/58971916/download_file?st=MTczMjc3MzIxOCw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="42641989" href="https://snut.academia.edu/TatThangLe">Tat-Thang LE</a><script data-card-contents-for-user="42641989" type="text/json">{"id":42641989,"first_name":"Tat-Thang","last_name":"LE","domain_name":"snut","page_name":"TatThangLe","display_name":"Tat-Thang LE","profile_url":"https://snut.academia.edu/TatThangLe?f_ri=63240","photo":"https://0.academia-photos.com/42641989/11469468/24446422/s65_tat-thang.le.png"}</script></span></span></li><li class="js-paper-rank-work_38875378 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="38875378"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 38875378, container: ".js-paper-rank-work_38875378", }); 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In a conventional PSFB converter, switching loss, conduction loss, and voltage drop on diodes of secondary side rectifier are experienced, and still left problems unsolved, especially with respect to high primary current. This paper presents parameters design of the PSFB with an additional resonant tank for high direct current applications considering all the problems mentioned above. Magnetizing inductance of transformer is determined. A series capacitor is added to reduce the high circulating current and current stress in the transformer. Both of these components are dealt as a resonant tank. Based on the characteristics of the resonant tank, ZVS area can be found. The voltage drop on diodes of secondary side rectifier can be stayed under limits, and conduction loss can be reduced if the capacitor and inductor are suitably parameterized. The parameters of transformer, resonant tank, and output filter are designed by proposed parameters design procedure. Simulation result demonstrates the switching loss, and conduction loss reduction by selecting the suitable values of magnetizing inductance, and resonant tank parameters. The performance of high current power supply is verified by the hardware experiment of a 500 A PSFB converter.","downloadable_attachments":[{"id":58971916,"asset_id":38875378,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":42641989,"first_name":"Tat-Thang","last_name":"LE","domain_name":"snut","page_name":"TatThangLe","display_name":"Tat-Thang LE","profile_url":"https://snut.academia.edu/TatThangLe?f_ri=63240","photo":"https://0.academia-photos.com/42641989/11469468/24446422/s65_tat-thang.le.png"}],"research_interests":[{"id":2696,"name":"Power Electronics","url":"https://www.academia.edu/Documents/in/Power_Electronics?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":993360,"name":"High Current Low Voltage Power Supply","url":"https://www.academia.edu/Documents/in/High_Current_Low_Voltage_Power_Supply?f_ri=63240","nofollow":false},{"id":1177526,"name":"Circulating Currents","url":"https://www.academia.edu/Documents/in/Circulating_Currents?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_6041398" data-work_id="6041398" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/6041398/Modeling_and_simulation_of_grid_connected_superconducting_wind_turbine_generators">Modeling and simulation of grid-connected superconducting wind turbine generators</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div 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class="clearfix u-pv7x u-mb0x js-work-card work_28094938" data-work_id="28094938" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/28094938/Scale_free_structural_organization_of_oxygen_interstitials_in_La2CuO4_y">Scale-free structural organization of oxygen interstitials in La2CuO4+y</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/28094938" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a 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Oxides","url":"https://www.academia.edu/Documents/in/Ceramic_Oxides?f_ri=63240"},{"id":802500,"name":"Oxides","url":"https://www.academia.edu/Documents/in/Oxides?f_ri=63240"},{"id":852533,"name":"Material Architecture","url":"https://www.academia.edu/Documents/in/Material_Architecture?f_ri=63240"},{"id":961390,"name":"Superstructure","url":"https://www.academia.edu/Documents/in/Superstructure?f_ri=63240"},{"id":993873,"name":"Copper Oxide","url":"https://www.academia.edu/Documents/in/Copper_Oxide?f_ri=63240"},{"id":1284192,"name":"Inhomogeneity","url":"https://www.academia.edu/Documents/in/Inhomogeneity?f_ri=63240"},{"id":1432574,"name":"Scale Invariance","url":"https://www.academia.edu/Documents/in/Scale_Invariance?f_ri=63240"},{"id":2390977,"name":"Transition metal oxides","url":"https://www.academia.edu/Documents/in/Transition_metal_oxides?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_6041402 coauthored" data-work_id="6041402" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/6041402/Design_and_characteristic_analysis_of_10_MW_class_superconducting_wind_turbine_generators_with_different_types_of_stator_and_rotor_configurations">Design and characteristic analysis of 10 MW class superconducting wind turbine generators with different types of stator and rotor configurations</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">Wind power generation facilities have been installed in the world. Recently offshore wind energy attracts greater attention, and development of wind turbine generators of higher power rating becomes more important. Superconducting... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_6041402" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">Wind power generation facilities have been installed in the world. Recently offshore wind energy attracts greater attention, and development of wind turbine generators of higher power rating becomes more important. Superconducting technology is expected to be applied to over 10 MW class generators. We have studied 10 MW class large wind turbine generators using superconducting technologies. The paper presents fundamental structures of <br />large-scale wind turbine generators, paying attention to the reduction  of  superconducting  wire  length, and generator size and weight. Some design results of 10 MW wind turbine generators are shown and compared.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/6041402" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="b6694b6366cf63c5ec8a0fc3b979b4c4" rel="nofollow" data-download="{"attachment_id":46828311,"asset_id":6041402,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/46828311/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="62008477" href="https://independent.academia.edu/HiroyukiOhsaki">Hiroyuki Ohsaki</a><script data-card-contents-for-user="62008477" type="text/json">{"id":62008477,"first_name":"Hiroyuki","last_name":"Ohsaki","domain_name":"independent","page_name":"HiroyukiOhsaki","display_name":"Hiroyuki Ohsaki","profile_url":"https://independent.academia.edu/HiroyukiOhsaki?f_ri=63240","photo":"/images/s65_no_pic.png"}</script></span></span><span class="u-displayInlineBlock InlineList-item-text"> and <span class="u-textDecorationUnderline u-clickable InlineList-item-text js-work-more-authors-6041402">+2</span><div class="hidden js-additional-users-6041402"><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://centralesupelec.academia.edu/Lo%C3%AFcQu%C3%A9val">Loïc Quéval</a></span></div><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://independent.academia.edu/YTerao">Y. Terao</a></span></div></div></span><script>(function(){ var popoverSettings = { el: $('.js-work-more-authors-6041402'), placement: 'bottom', hide_delay: 200, html: true, content: function(){ return $('.js-additional-users-6041402').html(); } } new HoverPopover(popoverSettings); })();</script></li><li class="js-paper-rank-work_6041402 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="6041402"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 6041402, container: ".js-paper-rank-work_6041402", }); });</script></li><li class="js-percentile-work_6041402 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 6041402; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_6041402"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_6041402 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="6041402"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 6041402; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=6041402]").text(description); $(".js-view-count-work_6041402").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_6041402").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="6041402"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">4</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="6469" href="https://www.academia.edu/Documents/in/Superconductivity">Superconductivity</a>, <script data-card-contents-for-ri="6469" type="text/json">{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="69575" href="https://www.academia.edu/Documents/in/Wind_turbine">Wind turbine</a>, <script data-card-contents-for-ri="69575" type="text/json">{"id":69575,"name":"Wind turbine","url":"https://www.academia.edu/Documents/in/Wind_turbine?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="388995" href="https://www.academia.edu/Documents/in/Design_of_electrical_machines">Design of electrical machines</a><script data-card-contents-for-ri="388995" type="text/json">{"id":388995,"name":"Design of electrical machines","url":"https://www.academia.edu/Documents/in/Design_of_electrical_machines?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=6041402]'), work: {"id":6041402,"title":"Design and characteristic analysis of 10 MW class superconducting wind turbine generators with different types of stator and rotor configurations","created_at":"2014-02-11T21:45:12.635-08:00","url":"https://www.academia.edu/6041402/Design_and_characteristic_analysis_of_10_MW_class_superconducting_wind_turbine_generators_with_different_types_of_stator_and_rotor_configurations?f_ri=63240","dom_id":"work_6041402","summary":"Wind power generation facilities have been installed in the world. Recently offshore wind energy attracts greater attention, and development of wind turbine generators of higher power rating becomes more important. Superconducting technology is expected to be applied to over 10 MW class generators. We have studied 10 MW class large wind turbine generators using superconducting technologies. The paper presents fundamental structures of \r\nlarge-scale wind turbine generators, paying attention to the reduction of superconducting wire length, and generator size and weight. Some design results of 10 MW wind turbine generators are shown and compared. ","downloadable_attachments":[{"id":46828311,"asset_id":6041402,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":62008477,"first_name":"Hiroyuki","last_name":"Ohsaki","domain_name":"independent","page_name":"HiroyukiOhsaki","display_name":"Hiroyuki Ohsaki","profile_url":"https://independent.academia.edu/HiroyukiOhsaki?f_ri=63240","photo":"/images/s65_no_pic.png"},{"id":9072547,"first_name":"Loïc","last_name":"Quéval","domain_name":"centralesupelec","page_name":"LoïcQuéval","display_name":"Loïc Quéval","profile_url":"https://centralesupelec.academia.edu/Lo%C3%AFcQu%C3%A9val?f_ri=63240","photo":"https://0.academia-photos.com/9072547/2944862/7948271/s65_lo_c.qu_val.jpg"},{"id":32461412,"first_name":"Y.","last_name":"Terao","domain_name":"independent","page_name":"YTerao","display_name":"Y. Terao","profile_url":"https://independent.academia.edu/YTerao?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":69575,"name":"Wind turbine","url":"https://www.academia.edu/Documents/in/Wind_turbine?f_ri=63240","nofollow":false},{"id":388995,"name":"Design of electrical machines","url":"https://www.academia.edu/Documents/in/Design_of_electrical_machines?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_55794037" data-work_id="55794037" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/55794037/Modelling_of_bulk_superconductor_magnetization">Modelling of bulk superconductor magnetization</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">This paper presents a topical review of the current state of the art in modelling the magnetization of bulk superconductors, including both (RE)BCO (where RE = rare earth or Y) and MgB2 materials. Such modelling is a powerful tool to... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_55794037" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">This paper presents a topical review of the current state of the art in modelling the magnetization of bulk superconductors, including both (RE)BCO (where RE = rare earth or Y) and MgB2 materials. Such modelling is a powerful tool to understand the physical mechanisms of their magnetization, to assist in interpretation of experimental results, and to predict the performance of practical bulk superconductor-based devices, which is particularly important as many superconducting applications head towards the commercialization stage of their development in the coming years. In addition to the analytical and numerical techniques currently used by researchers for modelling such materials, the commonly used practical techniques to magnetize bulk superconductors are summarized with a particular focus on pulsed field magnetization (PFM), which is promising as a compact, mobile and relatively inexpensive magnetizing technique. A number of numerical models developed to analyse the issues relat...</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/55794037" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="b8f0d882f6fb8f283ae75dd33b8b25b9" rel="nofollow" data-download="{"attachment_id":71496505,"asset_id":55794037,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/71496505/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="47601837" href="https://independent.academia.edu/HFujishiro">H. 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Such modelling is a powerful tool to understand the physical mechanisms of their magnetization, to assist in interpretation of experimental results, and to predict the performance of practical bulk superconductor-based devices, which is particularly important as many superconducting applications head towards the commercialization stage of their development in the coming years. In addition to the analytical and numerical techniques currently used by researchers for modelling such materials, the commonly used practical techniques to magnetize bulk superconductors are summarized with a particular focus on pulsed field magnetization (PFM), which is promising as a compact, mobile and relatively inexpensive magnetizing technique. A number of numerical models developed to analyse the issues relat...","downloadable_attachments":[{"id":71496505,"asset_id":55794037,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":47601837,"first_name":"H.","last_name":"Fujishiro","domain_name":"independent","page_name":"HFujishiro","display_name":"H. Fujishiro","profile_url":"https://independent.academia.edu/HFujishiro?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":49,"name":"Electrical Engineering","url":"https://www.academia.edu/Documents/in/Electrical_Engineering?f_ri=63240","nofollow":false},{"id":56,"name":"Materials Engineering","url":"https://www.academia.edu/Documents/in/Materials_Engineering?f_ri=63240","nofollow":false},{"id":505,"name":"Condensed Matter Physics","url":"https://www.academia.edu/Documents/in/Condensed_Matter_Physics?f_ri=63240","nofollow":false},{"id":717,"name":"Numerical Simulations","url":"https://www.academia.edu/Documents/in/Numerical_Simulations?f_ri=63240","nofollow":false},{"id":2377,"name":"Finite Element Methods","url":"https://www.academia.edu/Documents/in/Finite_Element_Methods?f_ri=63240"},{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240"},{"id":10497,"name":"Magnesium Diboride","url":"https://www.academia.edu/Documents/in/Magnesium_Diboride?f_ri=63240"},{"id":10651,"name":"Materials Characterisation","url":"https://www.academia.edu/Documents/in/Materials_Characterisation?f_ri=63240"},{"id":12022,"name":"Numerical Analysis","url":"https://www.academia.edu/Documents/in/Numerical_Analysis?f_ri=63240"},{"id":22930,"name":"Numerical Modelling","url":"https://www.academia.edu/Documents/in/Numerical_Modelling?f_ri=63240"},{"id":34232,"name":"HIGH TEMPERATURE SUPERCONDUCTIVITY","url":"https://www.academia.edu/Documents/in/HIGH_TEMPERATURE_SUPERCONDUCTIVITY?f_ri=63240"},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240"},{"id":125513,"name":"Superconductors","url":"https://www.academia.edu/Documents/in/Superconductors?f_ri=63240"},{"id":553393,"name":"Bulk Superconductors","url":"https://www.academia.edu/Documents/in/Bulk_Superconductors?f_ri=63240"},{"id":1003115,"name":"FEM Modelling and Numerical Simulation","url":"https://www.academia.edu/Documents/in/FEM_Modelling_and_Numerical_Simulation?f_ri=63240"},{"id":1237788,"name":"Electrical And Electronic Engineering","url":"https://www.academia.edu/Documents/in/Electrical_And_Electronic_Engineering?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_22586195" data-work_id="22586195" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/22586195/Effect_of_Mo_and_Mo_Ca_substitution_on_the_superconductivity_of_GaBa2Cu3O7_%CE%B4">Effect of Mo and MoCa substitution on the superconductivity of GaBa2Cu3O7−δ</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div 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Engineering</a>, <script data-card-contents-for-ri="56" type="text/json">{"id":56,"name":"Materials Engineering","url":"https://www.academia.edu/Documents/in/Materials_Engineering?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="505" href="https://www.academia.edu/Documents/in/Condensed_Matter_Physics">Condensed Matter Physics</a>, <script data-card-contents-for-ri="505" type="text/json">{"id":505,"name":"Condensed Matter Physics","url":"https://www.academia.edu/Documents/in/Condensed_Matter_Physics?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="1237788" href="https://www.academia.edu/Documents/in/Electrical_And_Electronic_Engineering">Electrical And Electronic Engineering</a><script data-card-contents-for-ri="1237788" type="text/json">{"id":1237788,"name":"Electrical And Electronic Engineering","url":"https://www.academia.edu/Documents/in/Electrical_And_Electronic_Engineering?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=22586195]'), work: {"id":22586195,"title":"Effect of Mo and MoCa substitution on the superconductivity of GaBa2Cu3O7−δ","created_at":"2016-02-29T02:21:27.539-08:00","url":"https://www.academia.edu/22586195/Effect_of_Mo_and_Mo_Ca_substitution_on_the_superconductivity_of_GaBa2Cu3O7_%CE%B4?f_ri=63240","dom_id":"work_22586195","summary":null,"downloadable_attachments":[{"id":43190819,"asset_id":22586195,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":44138023,"first_name":"Amish","last_name":"Joshi","domain_name":"nplindia","page_name":"AmishJoshi","display_name":"Amish Joshi","profile_url":"https://nplindia.academia.edu/AmishJoshi?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":56,"name":"Materials Engineering","url":"https://www.academia.edu/Documents/in/Materials_Engineering?f_ri=63240","nofollow":false},{"id":505,"name":"Condensed Matter Physics","url":"https://www.academia.edu/Documents/in/Condensed_Matter_Physics?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":1237788,"name":"Electrical And Electronic Engineering","url":"https://www.academia.edu/Documents/in/Electrical_And_Electronic_Engineering?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_32579886 coauthored" data-work_id="32579886" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/32579886/Josephson_Flux_Flow_Oscillator_the_Microscopic_Tunneling_Approach">Josephson Flux Flow Oscillator: the Microscopic Tunneling Approach</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">We elaborate a theoretical description of large Josephson junctions which is based on the Werthamer’s microscopic tunneling theory. The model naturally incorporates coupling of electromagnetic radiation to the tunnel currents and,... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_32579886" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">We elaborate a theoretical description of large Josephson junctions which is based on the Werthamer’s microscopic tunneling theory. The model naturally incorporates coupling of electromagnetic radiation to the tunnel currents and, therefore, is particularly suitable for description of the self-coupling effect in Josephson junction. In our numerical calculations we treat the arising integro-differential equation, which describes temporal evolution of the superconducting phase difference coupled to the electromagnetic field, by the Odintsov-Semenov-Zorin algorithm. This allows us to avoid evaluation of the time integrals at each time step while taking into account all <br />the memory effects. To validate the obtained microscopic model of large Josephson junction we focus our attention on the Josephson flux flow oscillator. The proposed microscopic model of flux flow oscillator does not involve the phenomenological damping parameter, rather, the damping is taken into account naturally in the tunnel current amplitudes calculated at a given temperature. The theoretically calculated current-voltage characteristics is compared to our experimental results obtained for a set of fabricated flux flow oscillators of different lengths. Our theoretical calculation <br />agrees well with the obtained experimental results, and, to our knowledge, is the first where theoretical description of Josephson flux flow oscillator is brought beyond the perturbed sine-Gordon equation.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/32579886" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="2036aac4c477a3f4db4bef9335737809" rel="nofollow" data-download="{"attachment_id":53964280,"asset_id":32579886,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/53964280/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="61214813" href="https://ifmo.academia.edu/DmitryGulevich">Dmitry Gulevich</a><script data-card-contents-for-user="61214813" type="text/json">{"id":61214813,"first_name":"Dmitry","last_name":"Gulevich","domain_name":"ifmo","page_name":"DmitryGulevich","display_name":"Dmitry Gulevich","profile_url":"https://ifmo.academia.edu/DmitryGulevich?f_ri=63240","photo":"https://0.academia-photos.com/61214813/16447252/16804691/s65_dmitry.gulevich.jpg"}</script></span></span><span class="u-displayInlineBlock InlineList-item-text"> and <span class="u-textDecorationUnderline u-clickable InlineList-item-text js-work-more-authors-32579886">+1</span><div class="hidden js-additional-users-32579886"><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://lovely-professional-university.academia.edu/FeodorKusmartsev">Feodor Kusmartsev</a></span></div></div></span><script>(function(){ var popoverSettings = { el: $('.js-work-more-authors-32579886'), placement: 'bottom', hide_delay: 200, html: true, content: function(){ return $('.js-additional-users-32579886').html(); } } new HoverPopover(popoverSettings); })();</script></li><li class="js-paper-rank-work_32579886 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="32579886"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 32579886, container: ".js-paper-rank-work_32579886", }); });</script></li><li class="js-percentile-work_32579886 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 32579886; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_32579886"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_32579886 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="32579886"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 32579886; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=32579886]").text(description); $(".js-view-count-work_32579886").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_32579886").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="32579886"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">7</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="6469" href="https://www.academia.edu/Documents/in/Superconductivity">Superconductivity</a>, <script data-card-contents-for-ri="6469" type="text/json">{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="25334" href="https://www.academia.edu/Documents/in/Terahertz_Electronics">Terahertz Electronics</a>, <script data-card-contents-for-ri="25334" type="text/json">{"id":25334,"name":"Terahertz Electronics","url":"https://www.academia.edu/Documents/in/Terahertz_Electronics?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="155267" href="https://www.academia.edu/Documents/in/Josephson_Junctions">Josephson Junctions</a><script data-card-contents-for-ri="155267" type="text/json">{"id":155267,"name":"Josephson Junctions","url":"https://www.academia.edu/Documents/in/Josephson_Junctions?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=32579886]'), work: {"id":32579886,"title":"Josephson Flux Flow Oscillator: the Microscopic Tunneling Approach","created_at":"2017-04-22T00:04:40.481-07:00","url":"https://www.academia.edu/32579886/Josephson_Flux_Flow_Oscillator_the_Microscopic_Tunneling_Approach?f_ri=63240","dom_id":"work_32579886","summary":"We elaborate a theoretical description of large Josephson junctions which is based on the Werthamer’s microscopic tunneling theory. The model naturally incorporates coupling of electromagnetic radiation to the tunnel currents and, therefore, is particularly suitable for description of the self-coupling effect in Josephson junction. In our numerical calculations we treat the arising integro-differential equation, which describes temporal evolution of the superconducting phase difference coupled to the electromagnetic field, by the Odintsov-Semenov-Zorin algorithm. This allows us to avoid evaluation of the time integrals at each time step while taking into account all\r\nthe memory effects. To validate the obtained microscopic model of large Josephson junction we focus our attention on the Josephson flux flow oscillator. The proposed microscopic model of flux flow oscillator does not involve the phenomenological damping parameter, rather, the damping is taken into account naturally in the tunnel current amplitudes calculated at a given temperature. The theoretically calculated current-voltage characteristics is compared to our experimental results obtained for a set of fabricated flux flow oscillators of different lengths. Our theoretical calculation\r\nagrees well with the obtained experimental results, and, to our knowledge, is the first where theoretical description of Josephson flux flow oscillator is brought beyond the perturbed sine-Gordon equation.","downloadable_attachments":[{"id":53964280,"asset_id":32579886,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":61214813,"first_name":"Dmitry","last_name":"Gulevich","domain_name":"ifmo","page_name":"DmitryGulevich","display_name":"Dmitry Gulevich","profile_url":"https://ifmo.academia.edu/DmitryGulevich?f_ri=63240","photo":"https://0.academia-photos.com/61214813/16447252/16804691/s65_dmitry.gulevich.jpg"},{"id":33209487,"first_name":"Feodor","last_name":"Kusmartsev","domain_name":"lovely-professional-university","page_name":"FeodorKusmartsev","display_name":"Feodor Kusmartsev","profile_url":"https://lovely-professional-university.academia.edu/FeodorKusmartsev?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false},{"id":25334,"name":"Terahertz Electronics","url":"https://www.academia.edu/Documents/in/Terahertz_Electronics?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":155267,"name":"Josephson Junctions","url":"https://www.academia.edu/Documents/in/Josephson_Junctions?f_ri=63240","nofollow":false},{"id":215921,"name":"Superconducting detectors","url":"https://www.academia.edu/Documents/in/Superconducting_detectors?f_ri=63240"},{"id":603885,"name":"Superconductivity: Proximity and Josephson effect","url":"https://www.academia.edu/Documents/in/Superconductivity_Proximity_and_Josephson_effect?f_ri=63240"},{"id":936230,"name":"Quasiparticles","url":"https://www.academia.edu/Documents/in/Quasiparticles?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_34503655" data-work_id="34503655" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/34503655/Volume_Element_Method_for_Thermal_Analysis_of_Superconducting_DC_Transmission_Cable">Volume Element Method for Thermal Analysis of Superconducting DC Transmission Cable</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">—The ever increasing need for cost-efficient, high-density power transmission brought to the fore applied superconductivity as an alternative worth investigating. Especially , high-temperature superconducting (HTS) dc cables emerge as a... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_34503655" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">—The ever increasing need for cost-efficient, high-density power transmission brought to the fore applied superconductivity as an alternative worth investigating. Especially , high-temperature superconducting (HTS) dc cables emerge as a promising solution for bulk power transmission and their use in the near future is expected to be increased. HTS cables have the special characteristic of varying performance under different critical conditions, especially under different operating temperatures. Therefore, detailed thermal analysis of HTS cables representing thermodynamics and heat transfer for varying length and time is of significant importance. The analytical mathematical formulation presented in this paper solves heat transfer equations for a two-dimensional axisymmetric cable model and identifies temperature distribution over length and time. The analysis is conducted on a bipolar cable suggested by the Electric Power Research Institute for long-distance HTS dc transmission, while both steady-state and transient scenarios are examined.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/34503655" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="8e7be1f39f6cff7ee9aa912ffd86c7aa" rel="nofollow" data-download="{"attachment_id":54368478,"asset_id":34503655,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/54368478/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="37624947" href="https://auth.academia.edu/DimitriosDoukas">Dimitrios Doukas</a><script data-card-contents-for-user="37624947" type="text/json">{"id":37624947,"first_name":"Dimitrios","last_name":"Doukas","domain_name":"auth","page_name":"DimitriosDoukas","display_name":"Dimitrios Doukas","profile_url":"https://auth.academia.edu/DimitriosDoukas?f_ri=63240","photo":"https://0.academia-photos.com/37624947/14287759/17713565/s65_dimitrios.doukas.png"}</script></span></span></li><li class="js-paper-rank-work_34503655 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="34503655"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 34503655, container: ".js-paper-rank-work_34503655", }); 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$(".js-view-count[data-work-id=34503655]").text(description); $(".js-view-count-work_34503655").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_34503655").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="34503655"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">3</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="213631" href="https://www.academia.edu/Documents/in/High_Temperature_Superconductors">High Temperature Superconductors</a>, <script data-card-contents-for-ri="213631" type="text/json">{"id":213631,"name":"High Temperature Superconductors","url":"https://www.academia.edu/Documents/in/High_Temperature_Superconductors?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="685294" href="https://www.academia.edu/Documents/in/Thermal_Modeling">Thermal Modeling</a><script data-card-contents-for-ri="685294" type="text/json">{"id":685294,"name":"Thermal Modeling","url":"https://www.academia.edu/Documents/in/Thermal_Modeling?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=34503655]'), work: {"id":34503655,"title":"Volume Element Method for Thermal Analysis of Superconducting DC Transmission Cable","created_at":"2017-09-07T07:45:17.661-07:00","url":"https://www.academia.edu/34503655/Volume_Element_Method_for_Thermal_Analysis_of_Superconducting_DC_Transmission_Cable?f_ri=63240","dom_id":"work_34503655","summary":"—The ever increasing need for cost-efficient, high-density power transmission brought to the fore applied superconductivity as an alternative worth investigating. Especially , high-temperature superconducting (HTS) dc cables emerge as a promising solution for bulk power transmission and their use in the near future is expected to be increased. HTS cables have the special characteristic of varying performance under different critical conditions, especially under different operating temperatures. Therefore, detailed thermal analysis of HTS cables representing thermodynamics and heat transfer for varying length and time is of significant importance. The analytical mathematical formulation presented in this paper solves heat transfer equations for a two-dimensional axisymmetric cable model and identifies temperature distribution over length and time. The analysis is conducted on a bipolar cable suggested by the Electric Power Research Institute for long-distance HTS dc transmission, while both steady-state and transient scenarios are examined.","downloadable_attachments":[{"id":54368478,"asset_id":34503655,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":37624947,"first_name":"Dimitrios","last_name":"Doukas","domain_name":"auth","page_name":"DimitriosDoukas","display_name":"Dimitrios Doukas","profile_url":"https://auth.academia.edu/DimitriosDoukas?f_ri=63240","photo":"https://0.academia-photos.com/37624947/14287759/17713565/s65_dimitrios.doukas.png"}],"research_interests":[{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":213631,"name":"High Temperature Superconductors","url":"https://www.academia.edu/Documents/in/High_Temperature_Superconductors?f_ri=63240","nofollow":false},{"id":685294,"name":"Thermal Modeling","url":"https://www.academia.edu/Documents/in/Thermal_Modeling?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_2127251" data-work_id="2127251" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/2127251/Properties_of_rf_sputtered_niobium_thin_films_for_metrological_applications">Properties of rf sputtered niobium thin films for metrological applications</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/2127251" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="db058c98857948292fcf7e8526942c65" rel="nofollow" data-download="{"attachment_id":50743548,"asset_id":2127251,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/50743548/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="1328673" href="https://cnr-it.academia.edu/SabinoMaggi">Sabino Maggi</a><script data-card-contents-for-user="1328673" type="text/json">{"id":1328673,"first_name":"Sabino","last_name":"Maggi","domain_name":"cnr-it","page_name":"SabinoMaggi","display_name":"Sabino Maggi","profile_url":"https://cnr-it.academia.edu/SabinoMaggi?f_ri=63240","photo":"/images/s65_no_pic.png"}</script></span></span></li><li class="js-paper-rank-work_2127251 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="2127251"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 2127251, container: ".js-paper-rank-work_2127251", }); 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$(".js-view-count[data-work-id=2127251]").text(description); $(".js-view-count-work_2127251").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_2127251").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="2127251"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">3</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="96502" href="https://www.academia.edu/Documents/in/Applied">Applied</a>, <script data-card-contents-for-ri="96502" type="text/json">{"id":96502,"name":"Applied","url":"https://www.academia.edu/Documents/in/Applied?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="101573" href="https://www.academia.edu/Documents/in/Thin_Film">Thin Film</a><script data-card-contents-for-ri="101573" type="text/json">{"id":101573,"name":"Thin Film","url":"https://www.academia.edu/Documents/in/Thin_Film?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=2127251]'), work: {"id":2127251,"title":"Properties of rf sputtered niobium thin films for metrological applications","created_at":"2012-11-13T02:11:02.631-08:00","url":"https://www.academia.edu/2127251/Properties_of_rf_sputtered_niobium_thin_films_for_metrological_applications?f_ri=63240","dom_id":"work_2127251","summary":null,"downloadable_attachments":[{"id":50743548,"asset_id":2127251,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":1328673,"first_name":"Sabino","last_name":"Maggi","domain_name":"cnr-it","page_name":"SabinoMaggi","display_name":"Sabino Maggi","profile_url":"https://cnr-it.academia.edu/SabinoMaggi?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":96502,"name":"Applied","url":"https://www.academia.edu/Documents/in/Applied?f_ri=63240","nofollow":false},{"id":101573,"name":"Thin Film","url":"https://www.academia.edu/Documents/in/Thin_Film?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_5179757 coauthored" data-work_id="5179757" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/5179757/35_4_T_field_generated_using_a_layer_wound_superconducting_coil_made_of_RE_Ba2Cu3O7_x_RE_rare_earth_coated_conductor">35.4 T field generated using a layer-wound superconducting coil made of (RE)Ba2Cu3O7-x (RE = rare earth) coated conductor</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">To explore the limits of layer wound (RE)Ba2Cu3O7-x (REBCO, RE = Rare Earth) coils in a high magnetic field environment > 30 T, a series of small insert coils have been built and characterized in background fields. One of the coils... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_5179757" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">To explore the limits of layer wound (RE)Ba2Cu3O7-x (REBCO, RE = Rare Earth) coils in a high magnetic field environment > 30 T, a series of small insert coils have been built and characterized in background fields. One of the coils repeatedly reached 35.4 T using a single ~100 m length of REBCO tape wet wound with epoxy and nested in a 31 T background magnet. The coil was quenched safely several times without degradation. Contributing to the success of this coil was the introduction of a thin polyester film that surrounded the conductor. This approach introduces a weak circumferential plane in the coil pack that prevents conductor delamination that has caused degradation of several epoxy impregnated coils previously made by this and other groups.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/5179757" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="f6fd44c4d49bec90c50f30355ddf8d70" rel="nofollow" data-download="{"attachment_id":32370536,"asset_id":5179757,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/32370536/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="7024484" href="https://independent.academia.edu/MatthieuDalbanCanassy">Matthieu Dalban-Canassy</a><script data-card-contents-for-user="7024484" type="text/json">{"id":7024484,"first_name":"Matthieu","last_name":"Dalban-Canassy","domain_name":"independent","page_name":"MatthieuDalbanCanassy","display_name":"Matthieu Dalban-Canassy","profile_url":"https://independent.academia.edu/MatthieuDalbanCanassy?f_ri=63240","photo":"https://0.academia-photos.com/7024484/2879188/3363500/s65_matthieu.dalban-canassy.jpg"}</script></span></span><span class="u-displayInlineBlock InlineList-item-text"> and <span class="u-textDecorationUnderline u-clickable InlineList-item-text js-work-more-authors-5179757">+3</span><div class="hidden js-additional-users-5179757"><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://independent.academia.edu/NoyesP">P. Noyes</a></span></div><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://independent.academia.edu/DLarbalestier">D. Larbalestier</a></span></div><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://fsu.academia.edu/YouriViouchkov">Youri Viouchkov</a></span></div></div></span><script>(function(){ var popoverSettings = { el: $('.js-work-more-authors-5179757'), placement: 'bottom', hide_delay: 200, html: true, content: function(){ return $('.js-additional-users-5179757').html(); } } new HoverPopover(popoverSettings); })();</script></li><li class="js-paper-rank-work_5179757 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="5179757"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 5179757, container: ".js-paper-rank-work_5179757", }); });</script></li><li class="js-percentile-work_5179757 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 5179757; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_5179757"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_5179757 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="5179757"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 5179757; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=5179757]").text(description); $(".js-view-count-work_5179757").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_5179757").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="5179757"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">4</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="74081" href="https://www.academia.edu/Documents/in/Superconducting_Magnet">Superconducting Magnet</a>, <script data-card-contents-for-ri="74081" type="text/json">{"id":74081,"name":"Superconducting Magnet","url":"https://www.academia.edu/Documents/in/Superconducting_Magnet?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="99109" href="https://www.academia.edu/Documents/in/Cuprate_Superconductors">Cuprate Superconductors</a>, <script data-card-contents-for-ri="99109" type="text/json">{"id":99109,"name":"Cuprate Superconductors","url":"https://www.academia.edu/Documents/in/Cuprate_Superconductors?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="213631" href="https://www.academia.edu/Documents/in/High_Temperature_Superconductors">High Temperature Superconductors</a><script data-card-contents-for-ri="213631" type="text/json">{"id":213631,"name":"High Temperature Superconductors","url":"https://www.academia.edu/Documents/in/High_Temperature_Superconductors?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=5179757]'), work: {"id":5179757,"title":"35.4 T field generated using a layer-wound superconducting coil made of (RE)Ba2Cu3O7-x (RE = rare earth) coated conductor","created_at":"2013-11-21T17:03:20.213-08:00","url":"https://www.academia.edu/5179757/35_4_T_field_generated_using_a_layer_wound_superconducting_coil_made_of_RE_Ba2Cu3O7_x_RE_rare_earth_coated_conductor?f_ri=63240","dom_id":"work_5179757","summary":"To explore the limits of layer wound (RE)Ba2Cu3O7-x (REBCO, RE = Rare Earth) coils in a high magnetic field environment \u003e 30 T, a series of small insert coils have been built and characterized in background fields. One of the coils repeatedly reached 35.4 T using a single ~100 m length of REBCO tape wet wound with epoxy and nested in a 31 T background magnet. The coil was quenched safely several times without degradation. Contributing to the success of this coil was the introduction of a thin polyester film that surrounded the conductor. This approach introduces a weak circumferential plane in the coil pack that prevents conductor delamination that has caused degradation of several epoxy impregnated coils previously made by this and other groups.","downloadable_attachments":[{"id":32370536,"asset_id":5179757,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":7024484,"first_name":"Matthieu","last_name":"Dalban-Canassy","domain_name":"independent","page_name":"MatthieuDalbanCanassy","display_name":"Matthieu Dalban-Canassy","profile_url":"https://independent.academia.edu/MatthieuDalbanCanassy?f_ri=63240","photo":"https://0.academia-photos.com/7024484/2879188/3363500/s65_matthieu.dalban-canassy.jpg"},{"id":60363622,"first_name":"P.","last_name":"Noyes","domain_name":"independent","page_name":"NoyesP","display_name":"P. Noyes","profile_url":"https://independent.academia.edu/NoyesP?f_ri=63240","photo":"/images/s65_no_pic.png"},{"id":60314145,"first_name":"D.","last_name":"Larbalestier","domain_name":"independent","page_name":"DLarbalestier","display_name":"D. 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microwave components</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/15170007" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="751e7a6d6f6918b81e00d2dd498656b9" rel="nofollow" data-download="{"attachment_id":43504224,"asset_id":15170007,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/43504224/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="34218005" href="https://independent.academia.edu/AlejandroValenzuela18">Alejandro Valenzuela</a><script data-card-contents-for-user="34218005" type="text/json">{"id":34218005,"first_name":"Alejandro","last_name":"Valenzuela","domain_name":"independent","page_name":"AlejandroValenzuela18","display_name":"Alejandro 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class="u-positionAbsolute" data-has-card-for-ri-list="15170007"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i></div><span class="InlineList-item-text u-textTruncate u-pl6x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a><script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (false) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=15170007]'), work: {"id":15170007,"title":"YBCO superconducting microwave 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itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/1200029/Light_interference_detection_on_chip_by_integrated_SNSPD_counters">Light interference detection on-chip by integrated SNSPD counters</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">A SWIFTS device (Stationary Wave Integrated Fourier Transform Spectrometer) has been realized with an array of 24 Superconducting Nanowire Single Photon Detectors (SNSPD), on-chip integrated under a Si3N4 monomode rib-waveguide... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_1200029" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">A SWIFTS device (Stationary Wave Integrated Fourier Transform Spectrometer) has been realized with an array of 24 Superconducting Nanowire Single Photon Detectors (SNSPD), on-chip integrated under a Si3N4 monomode rib-waveguide interferometer. Colored light around 1.55μm wavelength is introduced through end-fire coupling, producing a counter-propagative stationary interferogram over the 40nm wide, 120nm spaced, 4nm thick epi-NbN nanowire array. Modulations in the source bandwidth have been detected using individual waveguide coupled SNSPDs operating in single photon counting mode, which is a step towards light spectrum reconstruction by inverse Fourier transform of the stationary wave intensity. We report the design, fabrication process and in-situ measurement at 4.2K of light power modulation in the interferometer, obtained with variable laser wavelength. Such micro-SWIFTS configuration with 160nm sampling period over 3.84μm distance allows a spectral bandwidth of 2μm and a wavelength resolution of 170nm. The light interferences direct sampling ability is unique and raises wide interest with several potential applications like fringe-tracking, metrology, cryptography or optical tomography.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/1200029" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="86aeaf8ef224a9fad4d8c1dca8906aec" rel="nofollow" data-download="{"attachment_id":30878927,"asset_id":1200029,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/30878927/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="1094843" href="https://uct.academia.edu/PaulCavalier">Paul Cavalier</a><script data-card-contents-for-user="1094843" type="text/json">{"id":1094843,"first_name":"Paul","last_name":"Cavalier","domain_name":"uct","page_name":"PaulCavalier","display_name":"Paul Cavalier","profile_url":"https://uct.academia.edu/PaulCavalier?f_ri=63240","photo":"https://0.academia-photos.com/1094843/2774678/28534106/s65_paul.cavalier.jpg"}</script></span></span><span class="u-displayInlineBlock InlineList-item-text"> and <span class="u-textDecorationUnderline u-clickable InlineList-item-text js-work-more-authors-1200029">+1</span><div class="hidden js-additional-users-1200029"><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://cea.academia.edu/JeanClaudeVillegier">Jean-Claude Villegier</a></span></div></div></span><script>(function(){ var popoverSettings = { el: $('.js-work-more-authors-1200029'), placement: 'bottom', hide_delay: 200, html: true, content: function(){ return $('.js-additional-users-1200029').html(); 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container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_1200029 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="1200029"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 1200029; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=1200029]").text(description); $(".js-view-count-work_1200029").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_1200029").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="1200029"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">9</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="3988" href="https://www.academia.edu/Documents/in/Nanoelectronics">Nanoelectronics</a>, <script data-card-contents-for-ri="3988" type="text/json">{"id":3988,"name":"Nanoelectronics","url":"https://www.academia.edu/Documents/in/Nanoelectronics?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="42561" href="https://www.academia.edu/Documents/in/Optical_Waveguides">Optical Waveguides</a>, <script data-card-contents-for-ri="42561" type="text/json">{"id":42561,"name":"Optical Waveguides","url":"https://www.academia.edu/Documents/in/Optical_Waveguides?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="44299" href="https://www.academia.edu/Documents/in/Optoelectronics">Optoelectronics</a>, <script data-card-contents-for-ri="44299" type="text/json">{"id":44299,"name":"Optoelectronics","url":"https://www.academia.edu/Documents/in/Optoelectronics?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a><script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=1200029]'), work: {"id":1200029,"title":"Light interference detection on-chip by integrated SNSPD counters","created_at":"2012-01-04T17:20:51.404-08:00","url":"https://www.academia.edu/1200029/Light_interference_detection_on_chip_by_integrated_SNSPD_counters?f_ri=63240","dom_id":"work_1200029","summary":"A SWIFTS device (Stationary Wave Integrated Fourier Transform Spectrometer) has been realized with an array of 24 Superconducting Nanowire Single Photon Detectors (SNSPD), on-chip integrated under a Si3N4 monomode rib-waveguide interferometer. Colored light around 1.55μm wavelength is introduced through end-fire coupling, producing a counter-propagative stationary interferogram over the 40nm wide, 120nm spaced, 4nm thick epi-NbN nanowire array. Modulations in the source bandwidth have been detected using individual waveguide coupled SNSPDs operating in single photon counting mode, which is a step towards light spectrum reconstruction by inverse Fourier transform of the stationary wave intensity. We report the design, fabrication process and in-situ measurement at 4.2K of light power modulation in the interferometer, obtained with variable laser wavelength. Such micro-SWIFTS configuration with 160nm sampling period over 3.84μm distance allows a spectral bandwidth of 2μm and a wavelength resolution of 170nm. The light interferences direct sampling ability is unique and raises wide interest with several potential applications like fringe-tracking, metrology, cryptography or optical tomography.","downloadable_attachments":[{"id":30878927,"asset_id":1200029,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":1094843,"first_name":"Paul","last_name":"Cavalier","domain_name":"uct","page_name":"PaulCavalier","display_name":"Paul Cavalier","profile_url":"https://uct.academia.edu/PaulCavalier?f_ri=63240","photo":"https://0.academia-photos.com/1094843/2774678/28534106/s65_paul.cavalier.jpg"},{"id":22722570,"first_name":"Jean-Claude","last_name":"Villegier","domain_name":"cea","page_name":"JeanClaudeVillegier","display_name":"Jean-Claude Villegier","profile_url":"https://cea.academia.edu/JeanClaudeVillegier?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":3988,"name":"Nanoelectronics","url":"https://www.academia.edu/Documents/in/Nanoelectronics?f_ri=63240","nofollow":false},{"id":42561,"name":"Optical Waveguides","url":"https://www.academia.edu/Documents/in/Optical_Waveguides?f_ri=63240","nofollow":false},{"id":44299,"name":"Optoelectronics","url":"https://www.academia.edu/Documents/in/Optoelectronics?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":151019,"name":"Nanotechnology, Nanoelectronics, Semiconductor nanostructured optoelectronic Devices","url":"https://www.academia.edu/Documents/in/Nanotechnology_Nanoelectronics_Semiconductor_nanostructured_optoelectronic_Devices?f_ri=63240"},{"id":335384,"name":"Fourier Transform spectroscopy","url":"https://www.academia.edu/Documents/in/Fourier_Transform_spectroscopy?f_ri=63240"},{"id":619846,"name":"Photon Counting, Single Photon Detection","url":"https://www.academia.edu/Documents/in/Photon_Counting_Single_Photon_Detection?f_ri=63240"},{"id":619863,"name":"Single Photon Detection","url":"https://www.academia.edu/Documents/in/Single_Photon_Detection?f_ri=63240"},{"id":1222054,"name":"Spectrometers","url":"https://www.academia.edu/Documents/in/Spectrometers?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_75105102" data-work_id="75105102" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/75105102/35_4_T_field_generated_using_a_layer_wound_superconducting_coil_made_of_RE_Ba2Cu3O7_x_RE_rare_earth_coated_conductor">35.4 T field generated using a layer-wound superconducting coil made of (RE)Ba2Cu3O7−x (RE = rare earth) coated conductor</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/75105102" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="227c37e3382db55570a86ffc43273b05" rel="nofollow" data-download="{"attachment_id":83545851,"asset_id":75105102,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/83545851/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="60314145" href="https://independent.academia.edu/DLarbalestier">D. Larbalestier</a><script data-card-contents-for-user="60314145" type="text/json">{"id":60314145,"first_name":"D.","last_name":"Larbalestier","domain_name":"independent","page_name":"DLarbalestier","display_name":"D. Larbalestier","profile_url":"https://independent.academia.edu/DLarbalestier?f_ri=63240","photo":"/images/s65_no_pic.png"}</script></span></span></li><li class="js-paper-rank-work_75105102 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="75105102"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 75105102, container: ".js-paper-rank-work_75105102", }); });</script></li><li class="js-percentile-work_75105102 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 75105102; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_75105102"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_75105102 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="75105102"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 75105102; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=75105102]").text(description); $(".js-view-count-work_75105102").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_75105102").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="75105102"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">16</a>  </div><span class="InlineList-item-text u-textTruncate u-pl10x"><a class="InlineList-item-text" data-has-card-for-ri="48" href="https://www.academia.edu/Documents/in/Engineering">Engineering</a>, <script data-card-contents-for-ri="48" type="text/json">{"id":48,"name":"Engineering","url":"https://www.academia.edu/Documents/in/Engineering?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="498" href="https://www.academia.edu/Documents/in/Physics">Physics</a>, <script data-card-contents-for-ri="498" type="text/json">{"id":498,"name":"Physics","url":"https://www.academia.edu/Documents/in/Physics?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="511" href="https://www.academia.edu/Documents/in/Materials_Science">Materials Science</a>, <script data-card-contents-for-ri="511" type="text/json">{"id":511,"name":"Materials Science","url":"https://www.academia.edu/Documents/in/Materials_Science?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="6469" href="https://www.academia.edu/Documents/in/Superconductivity">Superconductivity</a><script data-card-contents-for-ri="6469" type="text/json">{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=75105102]'), work: {"id":75105102,"title":"35.4 T field generated using a layer-wound superconducting coil made of (RE)Ba2Cu3O7−x (RE = rare earth) coated conductor","created_at":"2022-03-31T15:33:01.805-07:00","url":"https://www.academia.edu/75105102/35_4_T_field_generated_using_a_layer_wound_superconducting_coil_made_of_RE_Ba2Cu3O7_x_RE_rare_earth_coated_conductor?f_ri=63240","dom_id":"work_75105102","summary":null,"downloadable_attachments":[{"id":83545851,"asset_id":75105102,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":60314145,"first_name":"D.","last_name":"Larbalestier","domain_name":"independent","page_name":"DLarbalestier","display_name":"D. Larbalestier","profile_url":"https://independent.academia.edu/DLarbalestier?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":48,"name":"Engineering","url":"https://www.academia.edu/Documents/in/Engineering?f_ri=63240","nofollow":false},{"id":498,"name":"Physics","url":"https://www.academia.edu/Documents/in/Physics?f_ri=63240","nofollow":false},{"id":511,"name":"Materials Science","url":"https://www.academia.edu/Documents/in/Materials_Science?f_ri=63240","nofollow":false},{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240"},{"id":74081,"name":"Superconducting Magnet","url":"https://www.academia.edu/Documents/in/Superconducting_Magnet?f_ri=63240"},{"id":99109,"name":"Cuprate Superconductors","url":"https://www.academia.edu/Documents/in/Cuprate_Superconductors?f_ri=63240"},{"id":110976,"name":"Magnetic Levitation","url":"https://www.academia.edu/Documents/in/Magnetic_Levitation?f_ri=63240"},{"id":118582,"name":"Physical sciences","url":"https://www.academia.edu/Documents/in/Physical_sciences?f_ri=63240"},{"id":125513,"name":"Superconductors","url":"https://www.academia.edu/Documents/in/Superconductors?f_ri=63240"},{"id":213631,"name":"High Temperature Superconductors","url":"https://www.academia.edu/Documents/in/High_Temperature_Superconductors?f_ri=63240"},{"id":310017,"name":"Conductor","url":"https://www.academia.edu/Documents/in/Conductor?f_ri=63240"},{"id":395801,"name":"Rare Earth","url":"https://www.academia.edu/Documents/in/Rare_Earth?f_ri=63240"},{"id":1383149,"name":"Superconducting magnets","url":"https://www.academia.edu/Documents/in/Superconducting_magnets?f_ri=63240"},{"id":3248334,"name":"Rare earth compounds","url":"https://www.academia.edu/Documents/in/Rare_earth_compounds?f_ri=63240"},{"id":3937538,"name":"High magnetic field","url":"https://www.academia.edu/Documents/in/High_magnetic_field?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_40623416" data-work_id="40623416" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/40623416/Semiconductor_Performance_in_Terms_of_Distributions_Bath_Tub_Curves_and_Similarity_Index">Semiconductor Performance in Terms of Distributions, Bath Tub Curves and Similarity Index</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">Semiconductors are indispensable in modern grids employing HVDC connections. With their growing use the forensic techniques for conventional grids and components are increasingly applied to semiconductor devices as well. A review of... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_40623416" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">Semiconductors are indispensable in modern grids employing HVDC connections. With their growing use the forensic techniques for conventional grids and components are increasingly applied to semiconductor devices as well. A review of techniques is provided with special attention to the use of distributions and to life cycle bathtub models (especially for mixed populations). Next, a method for determining the similarity between distributions is presented.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/40623416" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="21854aa14711865ccf3a18b9c7d7f1e2" rel="nofollow" data-download="{"attachment_id":60902709,"asset_id":40623416,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/60902709/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="131013070" href="https://tudelft.academia.edu/RobertRoss">Robert Ross</a><script data-card-contents-for-user="131013070" type="text/json">{"id":131013070,"first_name":"Robert","last_name":"Ross","domain_name":"tudelft","page_name":"RobertRoss","display_name":"Robert Ross","profile_url":"https://tudelft.academia.edu/RobertRoss?f_ri=63240","photo":"/images/s65_no_pic.png"}</script></span></span></li><li class="js-paper-rank-work_40623416 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="40623416"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 40623416, container: ".js-paper-rank-work_40623416", }); 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$(".js-view-count[data-work-id=40623416]").text(description); $(".js-view-count-work_40623416").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_40623416").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="40623416"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">13</a>  </div><span class="InlineList-item-text u-textTruncate u-pl10x"><a class="InlineList-item-text" data-has-card-for-ri="1526" href="https://www.academia.edu/Documents/in/Sensors_and_Sensing">Sensors and Sensing</a>, <script data-card-contents-for-ri="1526" type="text/json">{"id":1526,"name":"Sensors and Sensing","url":"https://www.academia.edu/Documents/in/Sensors_and_Sensing?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="7765" href="https://www.academia.edu/Documents/in/Semiconductors">Semiconductors</a>, <script data-card-contents-for-ri="7765" type="text/json">{"id":7765,"name":"Semiconductors","url":"https://www.academia.edu/Documents/in/Semiconductors?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="34232" href="https://www.academia.edu/Documents/in/HIGH_TEMPERATURE_SUPERCONDUCTIVITY">HIGH TEMPERATURE SUPERCONDUCTIVITY</a>, <script data-card-contents-for-ri="34232" type="text/json">{"id":34232,"name":"HIGH TEMPERATURE SUPERCONDUCTIVITY","url":"https://www.academia.edu/Documents/in/HIGH_TEMPERATURE_SUPERCONDUCTIVITY?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a><script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=40623416]'), work: {"id":40623416,"title":"Semiconductor Performance in Terms of Distributions, Bath Tub Curves and Similarity Index","created_at":"2019-10-14T21:55:42.708-07:00","url":"https://www.academia.edu/40623416/Semiconductor_Performance_in_Terms_of_Distributions_Bath_Tub_Curves_and_Similarity_Index?f_ri=63240","dom_id":"work_40623416","summary":"Semiconductors are indispensable in modern grids employing HVDC connections. With their growing use the forensic techniques for conventional grids and components are increasingly applied to semiconductor devices as well. A review of techniques is provided with special attention to the use of distributions and to life cycle bathtub models (especially for mixed populations). Next, a method for determining the similarity between distributions is presented.","downloadable_attachments":[{"id":60902709,"asset_id":40623416,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":131013070,"first_name":"Robert","last_name":"Ross","domain_name":"tudelft","page_name":"RobertRoss","display_name":"Robert Ross","profile_url":"https://tudelft.academia.edu/RobertRoss?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":1526,"name":"Sensors and Sensing","url":"https://www.academia.edu/Documents/in/Sensors_and_Sensing?f_ri=63240","nofollow":false},{"id":7765,"name":"Semiconductors","url":"https://www.academia.edu/Documents/in/Semiconductors?f_ri=63240","nofollow":false},{"id":34232,"name":"HIGH TEMPERATURE SUPERCONDUCTIVITY","url":"https://www.academia.edu/Documents/in/HIGH_TEMPERATURE_SUPERCONDUCTIVITY?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":75622,"name":"Power System Reliability","url":"https://www.academia.edu/Documents/in/Power_System_Reliability?f_ri=63240"},{"id":99484,"name":"Incident Management","url":"https://www.academia.edu/Documents/in/Incident_Management?f_ri=63240"},{"id":123506,"name":"Reliability","url":"https://www.academia.edu/Documents/in/Reliability?f_ri=63240"},{"id":130130,"name":"High voltage testing","url":"https://www.academia.edu/Documents/in/High_voltage_testing?f_ri=63240"},{"id":139778,"name":"Dielectrics","url":"https://www.academia.edu/Documents/in/Dielectrics?f_ri=63240"},{"id":214678,"name":"Asset Management","url":"https://www.academia.edu/Documents/in/Asset_Management?f_ri=63240"},{"id":1194364,"name":"Insulation","url":"https://www.academia.edu/Documents/in/Insulation?f_ri=63240"},{"id":1688853,"name":"Weibull","url":"https://www.academia.edu/Documents/in/Weibull?f_ri=63240"},{"id":1885974,"name":"Similarity Index","url":"https://www.academia.edu/Documents/in/Similarity_Index?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_37674708" data-work_id="37674708" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/37674708/Existence_and_uniqueness_of_solutions_of_a_class_of_3_rd_order_dissipative_problems_with_various_boundary_conditions_describing_the_Josephson_effect">Existence and uniqueness of solutions of a class of 3 rd order dissipative problems with various boundary conditions describing the Josephson effect</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">We prove existence and uniqueness of solutions of a large class of initial-boundary-value problems characterized by a quasi-linear third order equation (the third order term being dissipative) on a finite space interval with Dirichlet,... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_37674708" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">We prove existence and uniqueness of solutions of a large class of initial-boundary-value problems characterized by a quasi-linear third order equation (the third order term being dissipative) on a finite space interval with Dirichlet, Neumann or pseudope-riodic boundary conditions. The class includes equations arising in superconductor theory, such as a well-known modified sine-Gordon equation describing the Josephson effect, and in the theory of viscoelastic materials.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/37674708" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="a53d68278d1b0ce7dce42c3aee8f9e37" rel="nofollow" data-download="{"attachment_id":57663885,"asset_id":37674708,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/57663885/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="96039576" href="https://unina.academia.edu/MDeAngelis">Monica De Angelis</a><script data-card-contents-for-user="96039576" type="text/json">{"id":96039576,"first_name":"Monica","last_name":"De Angelis","domain_name":"unina","page_name":"MDeAngelis","display_name":"Monica De Angelis","profile_url":"https://unina.academia.edu/MDeAngelis?f_ri=63240","photo":"https://0.academia-photos.com/96039576/20978209/20484204/s65_monica.de_angelis.jpg"}</script></span></span></li><li class="js-paper-rank-work_37674708 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="37674708"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 37674708, container: ".js-paper-rank-work_37674708", }); 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The class includes equations arising in superconductor theory, such as a well-known modified sine-Gordon equation describing the Josephson effect, and in the theory of viscoelastic materials.","downloadable_attachments":[{"id":57663885,"asset_id":37674708,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":96039576,"first_name":"Monica","last_name":"De Angelis","domain_name":"unina","page_name":"MDeAngelis","display_name":"Monica De Angelis","profile_url":"https://unina.academia.edu/MDeAngelis?f_ri=63240","photo":"https://0.academia-photos.com/96039576/20978209/20484204/s65_monica.de_angelis.jpg"}],"research_interests":[{"id":305,"name":"Applied Mathematics","url":"https://www.academia.edu/Documents/in/Applied_Mathematics?f_ri=63240","nofollow":false},{"id":318,"name":"Mathematical Physics","url":"https://www.academia.edu/Documents/in/Mathematical_Physics?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":733670,"name":"Boundary Value Problems","url":"https://www.academia.edu/Documents/in/Boundary_Value_Problems?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_34356829" data-work_id="34356829" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/34356829/THE_MULTIPLE_MULTIVERSE_WAY_OF_THINGS_doc">THE MULTIPLE MULTIVERSE WAY OF THINGS.doc</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest">& I HAVE FINALLY TRACKED THE WHO FLUNG DUNG STORY BACK TO SOURCE. <br />WE DREAMING HUMANS ARE THE CREATOR GOD OF THIS MULTIVERSE, BUT THERE WERE SOME CONDITIONS IMPOSED ON THE CREATION OF THIS MULTIVERSE AS IS BLATANTLY OBVIOUS</div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/34356829" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="5029a3a392b0bb0675360ded5035952e" rel="nofollow" data-download="{"attachment_id":54247817,"asset_id":34356829,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" 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The superconducting transition temperature (Tc) is found to decrease monotonically with... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_1003462" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">We report on low temperature transport measurements on nano-granular Nb thin films deposited on Si (1 0 0) substrates using DC magnetron sputtering. The superconducting transition temperature (Tc) is found to decrease monotonically with the increase of the lattice parameter (a) irrespective of its thickness and grain size. The superconducting transition temperature is found to depend only on the lattice parameter whereas the normal state resistivity depends both on lattice parameter and the details of the sample morphology. We have modeled this Tc variation with lattice expansion in terms of Debye temperature reduction using Morse potential as the interatomic potential in Nb.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/1003462" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="2e3f9950f2d7503b1dcc375a6424ff8f" rel="nofollow" data-download="{"attachment_id":6142049,"asset_id":1003462,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/6142049/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="835824" href="https://tifr.academia.edu/MintuMondal">Mintu Mondal</a><script data-card-contents-for-user="835824" type="text/json">{"id":835824,"first_name":"Mintu","last_name":"Mondal","domain_name":"tifr","page_name":"MintuMondal","display_name":"Mintu Mondal","profile_url":"https://tifr.academia.edu/MintuMondal?f_ri=63240","photo":"https://0.academia-photos.com/835824/293686/347435/s65_mintu.mondal.jpg"}</script></span></span></li><li class="js-paper-rank-work_1003462 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="1003462"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 1003462, container: ".js-paper-rank-work_1003462", }); 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class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">A method is proposed for estimating the length scale of currents circulating in superconductors. The estimated circulation radius is used to determine the critical current density from magnetic measurements. The obtained formulas are... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_39931370" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">A method is proposed for estimating the length scale of currents circulating in superconductors. The estimated circulation radius is used to determine the critical current density from magnetic measurements. The obtained formulas are applicable to samples with negligibly small demagnetizing factors and to polycrystalline superconductors. The proposed method has been verified using experimental magnetization loops measured for polycrystalline YBa 2 Cu 3 O 7-δ and Bi 1.8 Pb 0.3 Sr 1.9 Ca 2 Cu 3 O x superconductors. The development of cryogenic technology and considerable progress achieved in manufacturing superconducting tapes and single-crystalline samples [1] are disclosing ways to implement superconductors in microelectronics, power engineering, and transport engineering. At the same time, a significant amount of the research devoted to the influence of material structure and/or composition on the properties of superconductors is still performed on polycrystalline samples. This circumstance is related to the relative simplicity of the methods of synthesis and modification of polycrystalline superconductors as compared to single crystals. In single crystals of high-temperature superconductors (HTSCs), critical current density Jc can reach up to ~10 12 A/m 2 , which is close to the values of depairing current density [2, 3]. Due to these high values, J c is usually determined by indirect methods based on magnetic measurements, rather than by direct charge transport measurement techniques. In polycrystalline HTSCs, transport measurements can be used for determining the density of the intergrain critical current, which is several orders of magnitude lower than J c for single-crystalline samples [2]. Therefore, the intragrain critical current density of polycrystalline HTSCs is always determined using magnetic measurements. The determination and comparison of parameters of various promising superconductors by indirect techniques requires correct data interpretation and taking the particular granular structure into account. According to the critical state model [4], the magnetization of a type-II superconductor is determined by critical current density J c and size of the sample. The corresponding expression (Bean's formula) is widely used to find J c from the results of magnetic measurements as</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/39931370" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="d30987e48020181c08dba28a4a238a0a" rel="nofollow" data-download="{"attachment_id":60118969,"asset_id":39931370,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/60118969/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="9275489" href="https://kirensky.academia.edu/DenisGokhfeld">Denis Gokhfeld</a><script data-card-contents-for-user="9275489" type="text/json">{"id":9275489,"first_name":"Denis","last_name":"Gokhfeld","domain_name":"kirensky","page_name":"DenisGokhfeld","display_name":"Denis Gokhfeld","profile_url":"https://kirensky.academia.edu/DenisGokhfeld?f_ri=63240","photo":"https://0.academia-photos.com/9275489/2976514/3492159/s65_denis.gokhfeld.jpg"}</script></span></span></li><li class="js-paper-rank-work_39931370 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="39931370"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 39931370, container: ".js-paper-rank-work_39931370", }); 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The estimated circulation radius is used to determine the critical current density from magnetic measurements. The obtained formulas are applicable to samples with negligibly small demagnetizing factors and to polycrystalline superconductors. The proposed method has been verified using experimental magnetization loops measured for polycrystalline YBa 2 Cu 3 O 7-δ and Bi 1.8 Pb 0.3 Sr 1.9 Ca 2 Cu 3 O x superconductors. The development of cryogenic technology and considerable progress achieved in manufacturing superconducting tapes and single-crystalline samples [1] are disclosing ways to implement superconductors in microelectronics, power engineering, and transport engineering. At the same time, a significant amount of the research devoted to the influence of material structure and/or composition on the properties of superconductors is still performed on polycrystalline samples. This circumstance is related to the relative simplicity of the methods of synthesis and modification of polycrystalline superconductors as compared to single crystals. In single crystals of high-temperature superconductors (HTSCs), critical current density Jc can reach up to ~10 12 A/m 2 , which is close to the values of depairing current density [2, 3]. Due to these high values, J c is usually determined by indirect methods based on magnetic measurements, rather than by direct charge transport measurement techniques. In polycrystalline HTSCs, transport measurements can be used for determining the density of the intergrain critical current, which is several orders of magnitude lower than J c for single-crystalline samples [2]. Therefore, the intragrain critical current density of polycrystalline HTSCs is always determined using magnetic measurements. The determination and comparison of parameters of various promising superconductors by indirect techniques requires correct data interpretation and taking the particular granular structure into account. According to the critical state model [4], the magnetization of a type-II superconductor is determined by critical current density J c and size of the sample. The corresponding expression (Bean's formula) is widely used to find J c from the results of magnetic measurements as","downloadable_attachments":[{"id":60118969,"asset_id":39931370,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":9275489,"first_name":"Denis","last_name":"Gokhfeld","domain_name":"kirensky","page_name":"DenisGokhfeld","display_name":"Denis Gokhfeld","profile_url":"https://kirensky.academia.edu/DenisGokhfeld?f_ri=63240","photo":"https://0.academia-photos.com/9275489/2976514/3492159/s65_denis.gokhfeld.jpg"}],"research_interests":[{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":125513,"name":"Superconductors","url":"https://www.academia.edu/Documents/in/Superconductors?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x 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itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/39172020/Superconductivity_and_Particle_Accelerators_2018">Superconductivity and Particle Accelerators 2018</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">Superconductivity and Particle Accelerator (SPAS) conference is devoted to research in the domain of superconductivity and its applications in science, as well as on research in the field of particle accelerators, conducted in Polish... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_39172020" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">Superconductivity and Particle Accelerator (SPAS) conference is devoted to research in the domain of superconductivity<br />and its applications in science, as well as on research in the field of particle accelerators, conducted in Polish research<br />institutions as well as by Polish scientists working in the international laboratories. The objective of SPAS conference is<br />to identify current and potential areas of research in superconductivity and particle accelerators, developed and possible<br />to develop in Poland and to determine the needs in the infrastructure to support this research. The SPAS’2018 program<br />included all main areas related to the superconductivity and accelerators, and also included a task of challenges in<br />thermonuclear projects, which are non-accelerator project but related to the superconductivity and superconducting<br />technology developed for accelerators. Another interesting subjects presented during conference were the Rapid Single<br />Quantum Flux electronics which uses Josephson junctions and could be possible used in superconducting quantum<br />computer, and lead-free materials that could substitute materials containing lead in its composition.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/39172020" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="6e40c6521a991b1130031cff24ac6774" rel="nofollow" data-download="{"attachment_id":59297744,"asset_id":39172020,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/59297744/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="32940935" href="https://pw.academia.edu/RyszardRomaniuk">Ryszard Romaniuk</a><script data-card-contents-for-user="32940935" type="text/json">{"id":32940935,"first_name":"Ryszard","last_name":"Romaniuk","domain_name":"pw","page_name":"RyszardRomaniuk","display_name":"Ryszard Romaniuk","profile_url":"https://pw.academia.edu/RyszardRomaniuk?f_ri=63240","photo":"https://0.academia-photos.com/32940935/9796962/10915995/s65_ryszard.romaniuk.jpg"}</script></span></span></li><li class="js-paper-rank-work_39172020 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="39172020"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 39172020, container: ".js-paper-rank-work_39172020", }); });</script></li><li class="js-percentile-work_39172020 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 39172020; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_39172020"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_39172020 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="39172020"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 39172020; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=39172020]").text(description); $(".js-view-count-work_39172020").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_39172020").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="39172020"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">5</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="6469" href="https://www.academia.edu/Documents/in/Superconductivity">Superconductivity</a>, <script data-card-contents-for-ri="6469" type="text/json">{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="14024" href="https://www.academia.edu/Documents/in/High_Energy_Physics">High Energy Physics</a>, <script data-card-contents-for-ri="14024" type="text/json">{"id":14024,"name":"High Energy Physics","url":"https://www.academia.edu/Documents/in/High_Energy_Physics?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="34232" href="https://www.academia.edu/Documents/in/HIGH_TEMPERATURE_SUPERCONDUCTIVITY">HIGH TEMPERATURE SUPERCONDUCTIVITY</a>, <script data-card-contents-for-ri="34232" type="text/json">{"id":34232,"name":"HIGH TEMPERATURE SUPERCONDUCTIVITY","url":"https://www.academia.edu/Documents/in/HIGH_TEMPERATURE_SUPERCONDUCTIVITY?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a><script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=39172020]'), work: {"id":39172020,"title":"Superconductivity and Particle Accelerators 2018","created_at":"2019-05-18T01:03:03.482-07:00","url":"https://www.academia.edu/39172020/Superconductivity_and_Particle_Accelerators_2018?f_ri=63240","dom_id":"work_39172020","summary":"Superconductivity and Particle Accelerator (SPAS) conference is devoted to research in the domain of superconductivity\nand its applications in science, as well as on research in the field of particle accelerators, conducted in Polish research\ninstitutions as well as by Polish scientists working in the international laboratories. The objective of SPAS conference is\nto identify current and potential areas of research in superconductivity and particle accelerators, developed and possible\nto develop in Poland and to determine the needs in the infrastructure to support this research. The SPAS’2018 program\nincluded all main areas related to the superconductivity and accelerators, and also included a task of challenges in\nthermonuclear projects, which are non-accelerator project but related to the superconductivity and superconducting\ntechnology developed for accelerators. Another interesting subjects presented during conference were the Rapid Single\nQuantum Flux electronics which uses Josephson junctions and could be possible used in superconducting quantum\ncomputer, and lead-free materials that could substitute materials containing lead in its composition.","downloadable_attachments":[{"id":59297744,"asset_id":39172020,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":32940935,"first_name":"Ryszard","last_name":"Romaniuk","domain_name":"pw","page_name":"RyszardRomaniuk","display_name":"Ryszard Romaniuk","profile_url":"https://pw.academia.edu/RyszardRomaniuk?f_ri=63240","photo":"https://0.academia-photos.com/32940935/9796962/10915995/s65_ryszard.romaniuk.jpg"}],"research_interests":[{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false},{"id":14024,"name":"High Energy Physics","url":"https://www.academia.edu/Documents/in/High_Energy_Physics?f_ri=63240","nofollow":false},{"id":34232,"name":"HIGH TEMPERATURE SUPERCONDUCTIVITY","url":"https://www.academia.edu/Documents/in/HIGH_TEMPERATURE_SUPERCONDUCTIVITY?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":1390449,"name":"Particle Accelerators","url":"https://www.academia.edu/Documents/in/Particle_Accelerators?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_28766235" data-work_id="28766235" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/28766235/Thermal_Modeling_of_a_Bipolar_High_Temperature_Superconducting_DC_Transmission_Cable">Thermal Modeling of a Bipolar High-Temperature Superconducting DC Transmission Cable</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">—Ever increasing need for cost-efficient, high-density power transmission brought to the fore superconducting transmission as an alternative to be investigated. Especially, high temperature superconducting (HTS) dc cables emerge as a... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_28766235" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">—Ever increasing need for cost-efficient, high-density power transmission brought to the fore superconducting transmission as an alternative to be investigated. Especially, high temperature superconducting (HTS) dc cables emerge as a promising solution for bulk power transmission and their adoption in the near future is expected to be increased. Cables consisting of superconductors have the special characteristic of varying performance under different critical conditions but especially for different temperatures. Therefore, detailed thermal modeling of HTS cables representing how thermodynamics and heat transfer laws are translated for varying length and time is of significant importance. The analytical mathematical formulation presented in this paper solves heat transfer equations and identifies temperature distribution over length and time, for a 3D cable model. The analysis is conducted for a bipolar cable suggested by EPRI for long-distance HTS dc transmission and is the first step of a coupled electro-thermal model that will follow to fully describe HTS dc cable special characteristics.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/28766235" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="5dc666e442cbca5ae3ba6a0cf22a73e0" rel="nofollow" data-download="{"attachment_id":49184302,"asset_id":28766235,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/49184302/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="37624947" href="https://auth.academia.edu/DimitriosDoukas">Dimitrios Doukas</a><script data-card-contents-for-user="37624947" type="text/json">{"id":37624947,"first_name":"Dimitrios","last_name":"Doukas","domain_name":"auth","page_name":"DimitriosDoukas","display_name":"Dimitrios Doukas","profile_url":"https://auth.academia.edu/DimitriosDoukas?f_ri=63240","photo":"https://0.academia-photos.com/37624947/14287759/17713565/s65_dimitrios.doukas.png"}</script></span></span></li><li class="js-paper-rank-work_28766235 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="28766235"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 28766235, container: ".js-paper-rank-work_28766235", }); });</script></li><li class="js-percentile-work_28766235 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 28766235; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_28766235"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_28766235 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="28766235"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 28766235; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=28766235]").text(description); $(".js-view-count-work_28766235").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_28766235").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="28766235"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">3</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="119784" href="https://www.academia.edu/Documents/in/Power_Cables">Power Cables</a>, <script data-card-contents-for-ri="119784" type="text/json">{"id":119784,"name":"Power Cables","url":"https://www.academia.edu/Documents/in/Power_Cables?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="175697" href="https://www.academia.edu/Documents/in/Thermal_modelling">Thermal modelling</a><script data-card-contents-for-ri="175697" type="text/json">{"id":175697,"name":"Thermal modelling","url":"https://www.academia.edu/Documents/in/Thermal_modelling?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=28766235]'), work: {"id":28766235,"title":"Thermal Modeling of a Bipolar High-Temperature Superconducting DC Transmission Cable","created_at":"2016-09-28T09:08:59.270-07:00","url":"https://www.academia.edu/28766235/Thermal_Modeling_of_a_Bipolar_High_Temperature_Superconducting_DC_Transmission_Cable?f_ri=63240","dom_id":"work_28766235","summary":"—Ever increasing need for cost-efficient, high-density power transmission brought to the fore superconducting transmission as an alternative to be investigated. Especially, high temperature superconducting (HTS) dc cables emerge as a promising solution for bulk power transmission and their adoption in the near future is expected to be increased. Cables consisting of superconductors have the special characteristic of varying performance under different critical conditions but especially for different temperatures. Therefore, detailed thermal modeling of HTS cables representing how thermodynamics and heat transfer laws are translated for varying length and time is of significant importance. The analytical mathematical formulation presented in this paper solves heat transfer equations and identifies temperature distribution over length and time, for a 3D cable model. The analysis is conducted for a bipolar cable suggested by EPRI for long-distance HTS dc transmission and is the first step of a coupled electro-thermal model that will follow to fully describe HTS dc cable special characteristics.","downloadable_attachments":[{"id":49184302,"asset_id":28766235,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":37624947,"first_name":"Dimitrios","last_name":"Doukas","domain_name":"auth","page_name":"DimitriosDoukas","display_name":"Dimitrios Doukas","profile_url":"https://auth.academia.edu/DimitriosDoukas?f_ri=63240","photo":"https://0.academia-photos.com/37624947/14287759/17713565/s65_dimitrios.doukas.png"}],"research_interests":[{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":119784,"name":"Power Cables","url":"https://www.academia.edu/Documents/in/Power_Cables?f_ri=63240","nofollow":false},{"id":175697,"name":"Thermal modelling","url":"https://www.academia.edu/Documents/in/Thermal_modelling?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_17380494" data-work_id="17380494" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/17380494/First_SNSPD_waveguide_integration_demonstration_with_loop_interferometer_for_SWIFTS_microspectrometer_realization">First SNSPD-waveguide integration demonstration, with loop interferometer, for SWIFTS microspectrometer realization</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">PhD Defence related to the paper "Light interference detection on-chip by integrated SNSPD counters" (AIP Advances 2011) and "SWIFTS Waveguide Micro-Spectrometer Integrated on Top of a 1D-NbN SNSPD Array" (IEEE TAS 2010). This project is... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_17380494" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">PhD Defence related to the paper "Light interference detection on-chip by integrated SNSPD counters" (AIP Advances 2011) and "SWIFTS Waveguide Micro-Spectrometer Integrated on Top of a 1D-NbN SNSPD Array" (IEEE TAS 2010).<br />This project is the first successful demonstration worldwide of SNSPD-waveguide monolithic integration, with an additional optical functionality (loop interferometer). The objective was to realize a SWIFTS (Stationary Wave Integrated Fourier Transform Spectrometer) microspectrometer, with 40nm wide SNSPDs sampling in-situ an inteferogram.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/17380494" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="f7b3d88a918f2542536dd25f4810c6e8" rel="nofollow" data-download="{"attachment_id":48644493,"asset_id":17380494,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/48644493/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="1094843" href="https://uct.academia.edu/PaulCavalier">Paul Cavalier</a><script data-card-contents-for-user="1094843" type="text/json">{"id":1094843,"first_name":"Paul","last_name":"Cavalier","domain_name":"uct","page_name":"PaulCavalier","display_name":"Paul Cavalier","profile_url":"https://uct.academia.edu/PaulCavalier?f_ri=63240","photo":"https://0.academia-photos.com/1094843/2774678/28534106/s65_paul.cavalier.jpg"}</script></span></span></li><li class="js-paper-rank-work_17380494 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="17380494"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 17380494, container: ".js-paper-rank-work_17380494", }); 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The objective was to realize a SWIFTS (Stationary Wave Integrated Fourier Transform Spectrometer) microspectrometer, with 40nm wide SNSPDs sampling in-situ an inteferogram.","downloadable_attachments":[{"id":48644493,"asset_id":17380494,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":1094843,"first_name":"Paul","last_name":"Cavalier","domain_name":"uct","page_name":"PaulCavalier","display_name":"Paul Cavalier","profile_url":"https://uct.academia.edu/PaulCavalier?f_ri=63240","photo":"https://0.academia-photos.com/1094843/2774678/28534106/s65_paul.cavalier.jpg"}],"research_interests":[{"id":3988,"name":"Nanoelectronics","url":"https://www.academia.edu/Documents/in/Nanoelectronics?f_ri=63240","nofollow":false},{"id":42561,"name":"Optical Waveguides","url":"https://www.academia.edu/Documents/in/Optical_Waveguides?f_ri=63240","nofollow":false},{"id":58143,"name":"Interferometry","url":"https://www.academia.edu/Documents/in/Interferometry?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":187151,"name":"Nanoelectronics Devices and Applications","url":"https://www.academia.edu/Documents/in/Nanoelectronics_Devices_and_Applications?f_ri=63240"},{"id":416713,"name":"Spectrometry","url":"https://www.academia.edu/Documents/in/Spectrometry?f_ri=63240"},{"id":619863,"name":"Single Photon Detection","url":"https://www.academia.edu/Documents/in/Single_Photon_Detection?f_ri=63240"},{"id":1504404,"name":"Fourier Transform Infrared Microspectroscopy","url":"https://www.academia.edu/Documents/in/Fourier_Transform_Infrared_Microspectroscopy?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_25372753" data-work_id="25372753" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/25372753/Chemical_route_to_the_synthesis_of_superconducting_bismuth_oxide_system">Chemical route to the synthesis of superconducting bismuth oxide system</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/25372753" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="b79da335cafec47f35e58d8596dc3489" rel="nofollow" data-download="{"attachment_id":45676072,"asset_id":25372753,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/45676072/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="33732420" href="https://icf.academia.edu/MariaZaharescu">Maria Zaharescu</a><script data-card-contents-for-user="33732420" type="text/json">{"id":33732420,"first_name":"Maria","last_name":"Zaharescu","domain_name":"icf","page_name":"MariaZaharescu","display_name":"Maria Zaharescu","profile_url":"https://icf.academia.edu/MariaZaharescu?f_ri=63240","photo":"/images/s65_no_pic.png"}</script></span></span></li><li class="js-paper-rank-work_25372753 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="25372753"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 25372753, container: ".js-paper-rank-work_25372753", }); 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$(".js-view-count[data-work-id=25372753]").text(description); $(".js-view-count-work_25372753").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_25372753").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="25372753"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i></div><span class="InlineList-item-text u-textTruncate u-pl6x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a><script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (false) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=25372753]'), work: {"id":25372753,"title":"Chemical route to the synthesis of superconducting bismuth oxide system","created_at":"2016-05-16T14:30:20.242-07:00","url":"https://www.academia.edu/25372753/Chemical_route_to_the_synthesis_of_superconducting_bismuth_oxide_system?f_ri=63240","dom_id":"work_25372753","summary":null,"downloadable_attachments":[{"id":45676072,"asset_id":25372753,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":33732420,"first_name":"Maria","last_name":"Zaharescu","domain_name":"icf","page_name":"MariaZaharescu","display_name":"Maria Zaharescu","profile_url":"https://icf.academia.edu/MariaZaharescu?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_22833582" data-work_id="22833582" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/22833582/Phase_locking_up_to_2_5_THz_in_grain_boundary_Josephson_junctions_at_77_K">Phase locking up to 2.5 THz in grain-boundary Josephson junctions at 77 K</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/22833582" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="b56e8207b77c8de8302a0c09fa04b690" rel="nofollow" data-download="{"attachment_id":43379189,"asset_id":22833582,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/43379189/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="44487427" href="https://independent.academia.edu/EStepantsov">E. Stepantsov</a><script data-card-contents-for-user="44487427" type="text/json">{"id":44487427,"first_name":"E.","last_name":"Stepantsov","domain_name":"independent","page_name":"EStepantsov","display_name":"E. 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Two different amorphous Boron (B)... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_9291416" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">Defect structure of MgB2 bulk and ultrafine particles, synthesized by solid state reaction route, have been investigated mainly by the aid of X-band electron paramagnetic resonance (EPR) spectrometer. Two different amorphous Boron (B) precursors were used for the synthesis of MgB2, namely boron 95 (purity %95-97, < 1.5 micron) and nanoboron (purity >98.5%, <250nm), which revealed bulk and nanosized MgB2, respectively. Scanning and transmission electron microscopy (SEM and TEM) analysis demonstrate uniform and ultrafine morphology for nanosized MgB2 in comparison with bulk MgB2. Powder X-ray diffraction (PXRD) data show that the concentration of the by-product MgO is significantly reduced when nanoboron is employed as precursor. It is observed that a significant average particle size reduction for MgB2 can be achieved only by using B particles of micron or nanosize. The origin and the role of defect centers were also investigated and the results proved that at nanoscale MgB2 material contains Mg vacancies. Such vacancies influence the connectivity and the conductivity properties which are crucial for the superconductivity applications.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/9291416" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="fb8176926edc392d6712baf3139cd572" rel="nofollow" data-download="{"attachment_id":35666421,"asset_id":9291416,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/35666421/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="673216" href="https://uni-freiburg.academia.edu/EmreErdem">Emre Erdem</a><script data-card-contents-for-user="673216" type="text/json">{"id":673216,"first_name":"Emre","last_name":"Erdem","domain_name":"uni-freiburg","page_name":"EmreErdem","display_name":"Emre Erdem","profile_url":"https://uni-freiburg.academia.edu/EmreErdem?f_ri=63240","photo":"https://0.academia-photos.com/673216/235097/16292589/s65_emre.erdem.jpg"}</script></span></span><span class="u-displayInlineBlock InlineList-item-text"> and <span class="u-textDecorationUnderline u-clickable InlineList-item-text js-work-more-authors-9291416">+1</span><div class="hidden js-additional-users-9291416"><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://ku.academia.edu/AliBateni">Ali Bateni</a></span></div></div></span><script>(function(){ var popoverSettings = { el: $('.js-work-more-authors-9291416'), placement: 'bottom', hide_delay: 200, html: true, content: function(){ return $('.js-additional-users-9291416').html(); 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Two different amorphous Boron (B) precursors were used for the synthesis of MgB2, namely boron 95 (purity %95-97, \u003c 1.5 micron) and nanoboron (purity \u003e98.5%, \u003c250nm), which revealed bulk and nanosized MgB2, respectively. Scanning and transmission electron microscopy (SEM and TEM) analysis demonstrate uniform and ultrafine morphology for nanosized MgB2 in comparison with bulk MgB2. Powder X-ray diffraction (PXRD) data show that the concentration of the by-product MgO is significantly reduced when nanoboron is employed as precursor. It is observed that a significant average particle size reduction for MgB2 can be achieved only by using B particles of micron or nanosize. The origin and the role of defect centers were also investigated and the results proved that at nanoscale MgB2 material contains Mg vacancies. Such vacancies influence the connectivity and the conductivity properties which are crucial for the superconductivity applications.","downloadable_attachments":[{"id":35666421,"asset_id":9291416,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":673216,"first_name":"Emre","last_name":"Erdem","domain_name":"uni-freiburg","page_name":"EmreErdem","display_name":"Emre Erdem","profile_url":"https://uni-freiburg.academia.edu/EmreErdem?f_ri=63240","photo":"https://0.academia-photos.com/673216/235097/16292589/s65_emre.erdem.jpg"},{"id":6948199,"first_name":"Ali","last_name":"Bateni","domain_name":"ku","page_name":"AliBateni","display_name":"Ali Bateni","profile_url":"https://ku.academia.edu/AliBateni?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":21731,"name":"EPR, ESR","url":"https://www.academia.edu/Documents/in/EPR_ESR?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied 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We treat it as a problem of mechanical behavior of an elastic vortex string settled in a potential well of a linear defect and exerted to Lorentz force action within the screening layer about the London penetration depth near the specimen surface. The stability problem for the vortex pinning state is investigated by means of numerical modeling, and conditions for the instability threshold are obtained as well as the critical current density j c and its dependence on the film thickness and magnetic field orientation. The instability leading to vortex depinning from extended linear defect first emerges near the surface and then propagates inside the supercon-ductor. This scenario of vortex depinning mechanism at low temperatures is strongly supported by some recent experiments on high-Tc superconductors and other novel superconducting materials, containing columnar defects of various nature.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/37685743" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="c9eed8200edd08f541b70e71ce7c91ab" rel="nofollow" data-download="{"attachment_id":57676022,"asset_id":37685743,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/57676022/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="44751944" href="https://independent.academia.edu/%D0%9E%D0%BB%D0%B5%D0%BA%D1%81%D0%B0%D0%BD%D0%B4%D1%80%D0%9A%D0%B0%D1%81%D0%B0%D1%82%D0%BA%D1%96%D0%BD">Олександр Касаткін</a><script data-card-contents-for-user="44751944" type="text/json">{"id":44751944,"first_name":"Олександр","last_name":"Касаткін","domain_name":"independent","page_name":"ОлександрКасаткін","display_name":"Олександр Касаткін","profile_url":"https://independent.academia.edu/%D0%9E%D0%BB%D0%B5%D0%BA%D1%81%D0%B0%D0%BD%D0%B4%D1%80%D0%9A%D0%B0%D1%81%D0%B0%D1%82%D0%BA%D1%96%D0%BD?f_ri=63240","photo":"https://0.academia-photos.com/44751944/19375219/19292025/s65__._.jpg"}</script></span></span></li><li class="js-paper-rank-work_37685743 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="37685743"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 37685743, container: ".js-paper-rank-work_37685743", }); 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$(".js-view-count[data-work-id=37685743]").text(description); $(".js-view-count-work_37685743").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_37685743").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="37685743"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i></div><span class="InlineList-item-text u-textTruncate u-pl6x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a><script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (false) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=37685743]'), work: {"id":37685743,"title":"Vortex Escape from Columnar Defect in a Current-Loaded Superconductor","created_at":"2018-11-01T06:01:23.163-07:00","url":"https://www.academia.edu/37685743/Vortex_Escape_from_Columnar_Defect_in_a_Current_Loaded_Superconductor?f_ri=63240","dom_id":"work_37685743","summary":"The problem of Abrikosov vortices depinning from extended linear (colum-nar) defect in 3D-anisotropic superconductor film under non-uniformly distributed Lorentz force is studied for the case of low temperatures, disregarding thermal activation processes. We treat it as a problem of mechanical behavior of an elastic vortex string settled in a potential well of a linear defect and exerted to Lorentz force action within the screening layer about the London penetration depth near the specimen surface. The stability problem for the vortex pinning state is investigated by means of numerical modeling, and conditions for the instability threshold are obtained as well as the critical current density j c and its dependence on the film thickness and magnetic field orientation. The instability leading to vortex depinning from extended linear defect first emerges near the surface and then propagates inside the supercon-ductor. This scenario of vortex depinning mechanism at low temperatures is strongly supported by some recent experiments on high-Tc superconductors and other novel superconducting materials, containing columnar defects of various nature.","downloadable_attachments":[{"id":57676022,"asset_id":37685743,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":44751944,"first_name":"Олександр","last_name":"Касаткін","domain_name":"independent","page_name":"ОлександрКасаткін","display_name":"Олександр Касаткін","profile_url":"https://independent.academia.edu/%D0%9E%D0%BB%D0%B5%D0%BA%D1%81%D0%B0%D0%BD%D0%B4%D1%80%D0%9A%D0%B0%D1%81%D0%B0%D1%82%D0%BA%D1%96%D0%BD?f_ri=63240","photo":"https://0.academia-photos.com/44751944/19375219/19292025/s65__._.jpg"}],"research_interests":[{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_25979127" data-work_id="25979127" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/25979127/The_Nd_123_superconducting_system_from_single_crystal_to_top_seeded_large_grain_Physical_and_chemical_parameters_influence">The Nd-123 superconducting system: from single crystal to top-seeded large grain. Physical and chemical parameters influence</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">... 7 (1994), p. 177. 2. RL Meng, C. Kinalidis, YY Sun, L. Gao, YK Tao, PH Hor and CW Chu. Nature 345 (1990), p. 326. Full Text via CrossRef | View Record in Scopus | Cited By in Scopus (29). 3. PJ McGinn, W. Chen, N. Zhu, M. Lanagan and... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_25979127" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">... 7 (1994), p. 177. 2. RL Meng, C. Kinalidis, YY Sun, L. Gao, YK Tao, PH Hor and CW Chu. Nature 345 (1990), p. 326. Full Text via CrossRef | View Record in Scopus | Cited By in Scopus (29). 3. PJ McGinn, W. Chen, N. Zhu, M. Lanagan and U. Balachandran. Appl. Phys. Lett. ...</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/25979127" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="816839" href="https://ulg.academia.edu/MarcelAusloos">Marcel Ausloos</a><script data-card-contents-for-user="816839" type="text/json">{"id":816839,"first_name":"Marcel","last_name":"Ausloos","domain_name":"ulg","page_name":"MarcelAusloos","display_name":"Marcel Ausloos","profile_url":"https://ulg.academia.edu/MarcelAusloos?f_ri=63240","photo":"https://0.academia-photos.com/816839/282824/18599074/s65_marcel.ausloos.png"}</script></span></span></li><li class="js-paper-rank-work_25979127 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="25979127"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 25979127, container: ".js-paper-rank-work_25979127", }); });</script></li><li class="js-percentile-work_25979127 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 25979127; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_25979127"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_25979127 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="25979127"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 25979127; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=25979127]").text(description); $(".js-view-count-work_25979127").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_25979127").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="25979127"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">6</a>  </div><span class="InlineList-item-text u-textTruncate u-pl9x"><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="80692" href="https://www.academia.edu/Documents/in/Copper">Copper</a>, <script data-card-contents-for-ri="80692" type="text/json">{"id":80692,"name":"Copper","url":"https://www.academia.edu/Documents/in/Copper?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="96502" href="https://www.academia.edu/Documents/in/Applied">Applied</a>, <script data-card-contents-for-ri="96502" type="text/json">{"id":96502,"name":"Applied","url":"https://www.academia.edu/Documents/in/Applied?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="230127" href="https://www.academia.edu/Documents/in/Energy_Dispersive_X-Ray_Analysis">Energy Dispersive X-Ray Analysis</a><script data-card-contents-for-ri="230127" type="text/json">{"id":230127,"name":"Energy Dispersive X-Ray Analysis","url":"https://www.academia.edu/Documents/in/Energy_Dispersive_X-Ray_Analysis?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=25979127]'), work: {"id":25979127,"title":"The Nd-123 superconducting system: from single crystal to top-seeded large grain. Physical and chemical parameters influence","created_at":"2016-06-07T22:51:27.855-07:00","url":"https://www.academia.edu/25979127/The_Nd_123_superconducting_system_from_single_crystal_to_top_seeded_large_grain_Physical_and_chemical_parameters_influence?f_ri=63240","dom_id":"work_25979127","summary":"... 7 (1994), p. 177. 2. RL Meng, C. Kinalidis, YY Sun, L. Gao, YK Tao, PH Hor and CW Chu. Nature 345 (1990), p. 326. Full Text via CrossRef | View Record in Scopus | Cited By in Scopus (29). 3. PJ McGinn, W. Chen, N. Zhu, M. Lanagan and U. Balachandran. Appl. Phys. Lett. ...","downloadable_attachments":[],"ordered_authors":[{"id":816839,"first_name":"Marcel","last_name":"Ausloos","domain_name":"ulg","page_name":"MarcelAusloos","display_name":"Marcel Ausloos","profile_url":"https://ulg.academia.edu/MarcelAusloos?f_ri=63240","photo":"https://0.academia-photos.com/816839/282824/18599074/s65_marcel.ausloos.png"}],"research_interests":[{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":80692,"name":"Copper","url":"https://www.academia.edu/Documents/in/Copper?f_ri=63240","nofollow":false},{"id":96502,"name":"Applied","url":"https://www.academia.edu/Documents/in/Applied?f_ri=63240","nofollow":false},{"id":230127,"name":"Energy Dispersive X-Ray Analysis","url":"https://www.academia.edu/Documents/in/Energy_Dispersive_X-Ray_Analysis?f_ri=63240","nofollow":false},{"id":394438,"name":"Single Crystal","url":"https://www.academia.edu/Documents/in/Single_Crystal?f_ri=63240"},{"id":772972,"name":"Chemical Composition","url":"https://www.academia.edu/Documents/in/Chemical_Composition?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_14133010 coauthored" data-work_id="14133010" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/14133010/Two_phase_regime_in_the_magnetic_field_temperature_phase_diagram_of_a_type_II_superconductor">Two-phase regime in the magnetic field–temperature phase diagram of a type-II superconductor</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/14133010" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="6c34453cb18c30c9ecc28104122f7e8f" rel="nofollow" data-download="{"attachment_id":44574622,"asset_id":14133010,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/44574622/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="33125482" href="https://spanalumni.academia.edu/OriolValls">Oriol Valls</a><script data-card-contents-for-user="33125482" type="text/json">{"id":33125482,"first_name":"Oriol","last_name":"Valls","domain_name":"spanalumni","page_name":"OriolValls","display_name":"Oriol Valls","profile_url":"https://spanalumni.academia.edu/OriolValls?f_ri=63240","photo":"/images/s65_no_pic.png"}</script></span></span><span class="u-displayInlineBlock InlineList-item-text"> and <span class="u-textDecorationUnderline u-clickable InlineList-item-text js-work-more-authors-14133010">+1</span><div class="hidden js-additional-users-14133010"><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://independent.academia.edu/AGoldman1">A. 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Goldman","profile_url":"https://independent.academia.edu/AGoldman1?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":56,"name":"Materials Engineering","url":"https://www.academia.edu/Documents/in/Materials_Engineering?f_ri=63240","nofollow":false},{"id":505,"name":"Condensed Matter Physics","url":"https://www.academia.edu/Documents/in/Condensed_Matter_Physics?f_ri=63240","nofollow":false},{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false},{"id":34754,"name":"Magnetic field","url":"https://www.academia.edu/Documents/in/Magnetic_field?f_ri=63240","nofollow":false},{"id":38050,"name":"Phase Transitions","url":"https://www.academia.edu/Documents/in/Phase_Transitions?f_ri=63240"},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240"},{"id":125513,"name":"Superconductors","url":"https://www.academia.edu/Documents/in/Superconductors?f_ri=63240"},{"id":133975,"name":"Magnetic Properties","url":"https://www.academia.edu/Documents/in/Magnetic_Properties?f_ri=63240"},{"id":146121,"name":"Proximity Effect","url":"https://www.academia.edu/Documents/in/Proximity_Effect?f_ri=63240"},{"id":247487,"name":"Temperature Dependence","url":"https://www.academia.edu/Documents/in/Temperature_Dependence?f_ri=63240"},{"id":872285,"name":"Vortices","url":"https://www.academia.edu/Documents/in/Vortices?f_ri=63240"},{"id":1130298,"name":"Critical Point","url":"https://www.academia.edu/Documents/in/Critical_Point?f_ri=63240"},{"id":1199295,"name":"Flux Pinning","url":"https://www.academia.edu/Documents/in/Flux_Pinning?f_ri=63240"},{"id":1237788,"name":"Electrical And Electronic Engineering","url":"https://www.academia.edu/Documents/in/Electrical_And_Electronic_Engineering?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_14369346 coauthored" data-work_id="14369346" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/14369346/Investigation_of_current_voltage_characteristics_of_p_type_silicon_during_electrochemical_anodization_and_application_to_doping_profiling">Investigation of current-voltage characteristics of p-type silicon during electrochemical anodization and application to doping profiling</a></div></div><div class="u-pb4x u-mt3x"></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a 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itemtype="https://schema.org/Person"><a href="https://independent.academia.edu/RajSingh108">Raj Singh</a></span></div></div></span><script>(function(){ var popoverSettings = { el: $('.js-work-more-authors-14369346'), placement: 'bottom', hide_delay: 200, html: true, content: function(){ return $('.js-additional-users-14369346').html(); } } new HoverPopover(popoverSettings); })();</script></li><li class="js-paper-rank-work_14369346 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="14369346"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 14369346, container: ".js-paper-rank-work_14369346", }); });</script></li><li class="js-percentile-work_14369346 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: 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href="https://www.academia.edu/Documents/in/Chemical_Engineering">Chemical Engineering</a>, <script data-card-contents-for-ri="72" type="text/json">{"id":72,"name":"Chemical Engineering","url":"https://www.academia.edu/Documents/in/Chemical_Engineering?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="505" href="https://www.academia.edu/Documents/in/Condensed_Matter_Physics">Condensed Matter Physics</a>, <script data-card-contents-for-ri="505" type="text/json">{"id":505,"name":"Condensed Matter Physics","url":"https://www.academia.edu/Documents/in/Condensed_Matter_Physics?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="518" href="https://www.academia.edu/Documents/in/Quantum_Physics">Quantum Physics</a><script data-card-contents-for-ri="518" type="text/json">{"id":518,"name":"Quantum 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Souifi","profile_url":"https://insa-lyon.academia.edu/AbdelkaderSouifi?f_ri=63240","photo":"/images/s65_no_pic.png"},{"id":19069115,"first_name":"Raj","last_name":"Singh","domain_name":"independent","page_name":"RajSingh108","display_name":"Raj Singh","profile_url":"https://independent.academia.edu/RajSingh108?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":56,"name":"Materials Engineering","url":"https://www.academia.edu/Documents/in/Materials_Engineering?f_ri=63240","nofollow":false},{"id":72,"name":"Chemical Engineering","url":"https://www.academia.edu/Documents/in/Chemical_Engineering?f_ri=63240","nofollow":false},{"id":505,"name":"Condensed Matter Physics","url":"https://www.academia.edu/Documents/in/Condensed_Matter_Physics?f_ri=63240","nofollow":false},{"id":518,"name":"Quantum Physics","url":"https://www.academia.edu/Documents/in/Quantum_Physics?f_ri=63240","nofollow":false},{"id":49651,"name":"Nano","url":"https://www.academia.edu/Documents/in/Nano?f_ri=63240"},{"id":53108,"name":"Phosphorus","url":"https://www.academia.edu/Documents/in/Phosphorus?f_ri=63240"},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240"},{"id":99667,"name":"Annealing","url":"https://www.academia.edu/Documents/in/Annealing?f_ri=63240"},{"id":104994,"name":"Si","url":"https://www.academia.edu/Documents/in/Si?f_ri=63240"},{"id":185380,"name":"Optical Properties","url":"https://www.academia.edu/Documents/in/Optical_Properties?f_ri=63240"},{"id":253171,"name":"polymer science and Engineering","url":"https://www.academia.edu/Documents/in/polymer_science_and_Engineering?f_ri=63240"},{"id":882535,"name":"Substrates","url":"https://www.academia.edu/Documents/in/Substrates?f_ri=63240"},{"id":898062,"name":"Flow Rate","url":"https://www.academia.edu/Documents/in/Flow_Rate?f_ri=63240"},{"id":1360019,"name":"Metal Organic Chemical Vapor Deposition","url":"https://www.academia.edu/Documents/in/Metal_Organic_Chemical_Vapor_Deposition?f_ri=63240"},{"id":2162050,"name":"Current-Voltage Characteristic","url":"https://www.academia.edu/Documents/in/Current-Voltage_Characteristic?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_19543704" data-work_id="19543704" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/19543704/Space_applications_of_superconducting_microwave_electronics_at_NASA_Lewis_Research_Center">Space applications of superconducting microwave electronics at NASA Lewis Research Center</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">Since the discovery of high temperature superconductivity in 1987, NASA Lewis Research Center has been involved in efforts to demonstrate its advantages for applications involving microwave electronics in space, especially space... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_19543704" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">Since the discovery of high temperature superconductivity in 1987, NASA Lewis Research Center has been involved in efforts to demonstrate its advantages for applications involving microwave electronics in space, especially space communications. The program included thin film fabrication by means of laser ablation. Specific circuitry which was investigated includes microstrip ring resonators at 32 GHz, phase shifters which utilize a</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/19543704" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="21b25d53262ac0b4ee23e861d0b16226" rel="nofollow" data-download="{"attachment_id":40686637,"asset_id":19543704,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/40686637/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="39871205" href="https://independent.academia.edu/KulBhasin">Kul Bhasin</a><script data-card-contents-for-user="39871205" type="text/json">{"id":39871205,"first_name":"Kul","last_name":"Bhasin","domain_name":"independent","page_name":"KulBhasin","display_name":"Kul Bhasin","profile_url":"https://independent.academia.edu/KulBhasin?f_ri=63240","photo":"/images/s65_no_pic.png"}</script></span></span></li><li class="js-paper-rank-work_19543704 InlineList-item InlineList-item--bordered hidden"><span class="js-paper-rank-view hidden u-tcGrayDark" data-paper-rank-work-id="19543704"><i class="u-m1x fa fa-bar-chart"></i><strong class="js-paper-rank"></strong></span><script>$(function() { new Works.PaperRankView({ workId: 19543704, container: ".js-paper-rank-work_19543704", }); });</script></li><li class="js-percentile-work_19543704 InlineList-item InlineList-item--bordered hidden u-tcGrayDark"><span class="percentile-widget hidden"><span class="u-mr2x percentile-widget" style="display: none">•</span><span class="u-mr2x work-percentile"></span></span><script>$(function () { var workId = 19543704; window.Academia.workPercentilesFetcher.queue(workId, function (percentileText) { var container = $(".js-percentile-work_19543704"); container.find('.work-percentile').text(percentileText.charAt(0).toUpperCase() + percentileText.slice(1)); container.find('.percentile-widget').show(); container.find('.percentile-widget').removeClass('hidden'); }); });</script></li><li class="js-view-count-work_19543704 InlineList-item InlineList-item--bordered hidden"><div><span><span class="js-view-count view-count u-mr2x" data-work-id="19543704"><i class="fa fa-spinner fa-spin"></i></span><script>$(function () { var workId = 19543704; window.Academia.workViewCountsFetcher.queue(workId, function (count) { var description = window.$h.commaizeInt(count) + " " + window.$h.pluralize(count, 'View'); $(".js-view-count[data-work-id=19543704]").text(description); $(".js-view-count-work_19543704").attr('title', description).tooltip(); }); });</script></span><script>$(function() { $(".js-view-count-work_19543704").removeClass('hidden') })</script></div></li><li class="InlineList-item u-positionRelative" style="max-width: 250px"><div class="u-positionAbsolute" data-has-card-for-ri-list="19543704"><i class="fa fa-tag InlineList-item-icon u-positionRelative"></i>  <a class="InlineList-item-text u-positionRelative">12</a>  </div><span class="InlineList-item-text u-textTruncate u-pl10x"><a class="InlineList-item-text" data-has-card-for-ri="22169" href="https://www.academia.edu/Documents/in/Microstrip_Antenna">Microstrip Antenna</a>, <script data-card-contents-for-ri="22169" type="text/json">{"id":22169,"name":"Microstrip Antenna","url":"https://www.academia.edu/Documents/in/Microstrip_Antenna?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="63240" href="https://www.academia.edu/Documents/in/Applied_Superconductivity">Applied Superconductivity</a>, <script data-card-contents-for-ri="63240" type="text/json">{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="80692" href="https://www.academia.edu/Documents/in/Copper">Copper</a>, <script data-card-contents-for-ri="80692" type="text/json">{"id":80692,"name":"Copper","url":"https://www.academia.edu/Documents/in/Copper?f_ri=63240","nofollow":false}</script><a class="InlineList-item-text" data-has-card-for-ri="101573" href="https://www.academia.edu/Documents/in/Thin_Film">Thin Film</a><script data-card-contents-for-ri="101573" type="text/json">{"id":101573,"name":"Thin Film","url":"https://www.academia.edu/Documents/in/Thin_Film?f_ri=63240","nofollow":false}</script></span></li><script>(function(){ if (true) { new Aedu.ResearchInterestListCard({ el: $('*[data-has-card-for-ri-list=19543704]'), work: {"id":19543704,"title":"Space applications of superconducting microwave electronics at NASA Lewis Research Center","created_at":"2015-12-07T14:21:42.337-08:00","url":"https://www.academia.edu/19543704/Space_applications_of_superconducting_microwave_electronics_at_NASA_Lewis_Research_Center?f_ri=63240","dom_id":"work_19543704","summary":"Since the discovery of high temperature superconductivity in 1987, NASA Lewis Research Center has been involved in efforts to demonstrate its advantages for applications involving microwave electronics in space, especially space communications. The program included thin film fabrication by means of laser ablation. Specific circuitry which was investigated includes microstrip ring resonators at 32 GHz, phase shifters which utilize a","downloadable_attachments":[{"id":40686637,"asset_id":19543704,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":39871205,"first_name":"Kul","last_name":"Bhasin","domain_name":"independent","page_name":"KulBhasin","display_name":"Kul Bhasin","profile_url":"https://independent.academia.edu/KulBhasin?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":22169,"name":"Microstrip Antenna","url":"https://www.academia.edu/Documents/in/Microstrip_Antenna?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied Superconductivity","url":"https://www.academia.edu/Documents/in/Applied_Superconductivity?f_ri=63240","nofollow":false},{"id":80692,"name":"Copper","url":"https://www.academia.edu/Documents/in/Copper?f_ri=63240","nofollow":false},{"id":101573,"name":"Thin Film","url":"https://www.academia.edu/Documents/in/Thin_Film?f_ri=63240","nofollow":false},{"id":159153,"name":"Laser Ablation","url":"https://www.academia.edu/Documents/in/Laser_Ablation?f_ri=63240"},{"id":174781,"name":"Oscillations","url":"https://www.academia.edu/Documents/in/Oscillations?f_ri=63240"},{"id":509762,"name":"Space Application","url":"https://www.academia.edu/Documents/in/Space_Application?f_ri=63240"},{"id":510956,"name":"Antenna Array","url":"https://www.academia.edu/Documents/in/Antenna_Array?f_ri=63240"},{"id":1120502,"name":"Experimental Data","url":"https://www.academia.edu/Documents/in/Experimental_Data?f_ri=63240"},{"id":1265081,"name":"Ring Resonator","url":"https://www.academia.edu/Documents/in/Ring_Resonator?f_ri=63240"},{"id":1437495,"name":"Phase Shift","url":"https://www.academia.edu/Documents/in/Phase_Shift?f_ri=63240"},{"id":1759714,"name":"Microwave Circuit","url":"https://www.academia.edu/Documents/in/Microwave_Circuit?f_ri=63240"}]}, }) } })();</script></ul></li></ul></div></div><div class="u-borderBottom1 u-borderColorGrayLighter"><div class="clearfix u-pv7x u-mb0x js-work-card work_6041395 coauthored" data-work_id="6041395" itemscope="itemscope" itemtype="https://schema.org/ScholarlyArticle"><div class="header"><div class="title u-fontSerif u-fs22 u-lineHeight1_3"><a class="u-tcGrayDarkest js-work-link" href="https://www.academia.edu/6041395/AC_losses_of_a_grid_connected_superconducting_wind_turbine_generator">AC losses of a grid-connected superconducting wind turbine generator</a></div></div><div class="u-pb4x u-mt3x"><div class="summary u-fs14 u-fw300 u-lineHeight1_5 u-tcGrayDarkest"><div class="summarized">We present a numerical method to estimate the steady-state AC losses of a superconducting wind turbine generator connected to the grid through its AC/DC/AC converter. We use a multiscale simulation with unidirectional couplings between a... <a class="more_link u-tcGrayDark u-linkUnstyled" data-container=".work_6041395" data-show=".complete" data-hide=".summarized" data-more-link-behavior="true" href="#">more</a></div><div class="complete hidden">We present a numerical method to estimate the steady-state AC losses of a superconducting wind turbine generator connected to the grid through its AC/DC/AC converter. We use a multiscale simulation with unidirectional couplings between a lumped-parameter wind energy conversion system model, a finite element machine model, and a finite element HTS tape model. The estimation include effects linked to the generator space harmonics, the exciter control, and the AC/DC/AC converter PWM and control. As the superconducting coil is made of several thousand of HTS tapes, we evaluate AC losses for a fraction of them and we interpolate the results to the others. The steady-state AC losses of a 10 MW class generator are estimated to be under 60 W.</div></div></div><ul class="InlineList u-ph0x u-fs13"><li class="InlineList-item logged_in_only"><div class="share_on_academia_work_button"><a class="academia_share Button Button--inverseBlue Button--sm js-bookmark-button" data-academia-share="Work/6041395" data-share-source="work_strip" data-spinner="small_white_hide_contents"><i class="fa fa-plus"></i><span class="work-strip-link-text u-ml1x" data-content="button_text">Bookmark</span></a></div></li><li class="InlineList-item"><div class="download"><a id="32ca9fce57d23bb6bf23b90ffb0d1909" rel="nofollow" data-download="{"attachment_id":56841673,"asset_id":6041395,"asset_type":"Work","always_allow_download":false,"track":null,"button_location":"work_strip","source":null,"hide_modal":null}" class="Button Button--sm Button--inverseGreen js-download-button prompt_button doc_download" href="https://www.academia.edu/attachments/56841673/download_file?st=MTczMjc3MzIxOSw4LjIyMi4yMDguMTQ2&s=work_strip"><i class="fa fa-arrow-circle-o-down fa-lg"></i><span class="u-textUppercase u-ml1x" data-content="button_text">Download</span></a></div></li><li class="InlineList-item"><ul class="InlineList InlineList--bordered u-ph0x"><li class="InlineList-item InlineList-item--bordered"><span class="InlineList-item-text">by <span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a class="u-tcGrayDark u-fw700" data-has-card-for-user="9072547" href="https://centralesupelec.academia.edu/Lo%C3%AFcQu%C3%A9val">Loïc Quéval</a><script data-card-contents-for-user="9072547" type="text/json">{"id":9072547,"first_name":"Loïc","last_name":"Quéval","domain_name":"centralesupelec","page_name":"LoïcQuéval","display_name":"Loïc Quéval","profile_url":"https://centralesupelec.academia.edu/Lo%C3%AFcQu%C3%A9val?f_ri=63240","photo":"https://0.academia-photos.com/9072547/2944862/7948271/s65_lo_c.qu_val.jpg"}</script></span></span><span class="u-displayInlineBlock InlineList-item-text"> and <span class="u-textDecorationUnderline u-clickable InlineList-item-text js-work-more-authors-6041395">+1</span><div class="hidden js-additional-users-6041395"><div><span itemscope="itemscope" itemprop="author" itemtype="https://schema.org/Person"><a href="https://independent.academia.edu/HiroyukiOhsaki">Hiroyuki Ohsaki</a></span></div></div></span><script>(function(){ var popoverSettings = { el: $('.js-work-more-authors-6041395'), placement: 'bottom', hide_delay: 200, html: true, content: function(){ return $('.js-additional-users-6041395').html(); 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We use a multiscale simulation with unidirectional couplings between a lumped-parameter wind energy conversion system model, a finite element machine model, and a finite element HTS tape model. The estimation include effects linked to the generator space harmonics, the exciter control, and the AC/DC/AC converter PWM and control. As the superconducting coil is made of several thousand of HTS tapes, we evaluate AC losses for a fraction of them and we interpolate the results to the others. The steady-state AC losses of a 10 MW class generator are estimated to be under 60 W.","downloadable_attachments":[{"id":56841673,"asset_id":6041395,"asset_type":"Work","always_allow_download":false}],"ordered_authors":[{"id":9072547,"first_name":"Loïc","last_name":"Quéval","domain_name":"centralesupelec","page_name":"LoïcQuéval","display_name":"Loïc Quéval","profile_url":"https://centralesupelec.academia.edu/Lo%C3%AFcQu%C3%A9val?f_ri=63240","photo":"https://0.academia-photos.com/9072547/2944862/7948271/s65_lo_c.qu_val.jpg"},{"id":62008477,"first_name":"Hiroyuki","last_name":"Ohsaki","domain_name":"independent","page_name":"HiroyukiOhsaki","display_name":"Hiroyuki Ohsaki","profile_url":"https://independent.academia.edu/HiroyukiOhsaki?f_ri=63240","photo":"/images/s65_no_pic.png"}],"research_interests":[{"id":6469,"name":"Superconductivity","url":"https://www.academia.edu/Documents/in/Superconductivity?f_ri=63240","nofollow":false},{"id":63240,"name":"Applied 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