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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC22AD60S4A121C2000000","link-to-URL":"/tech-foresight/article/DGXZQOUC22AD60S4A121C2000000/"}" href="/prime/tech-foresight/article/DGXZQOUC22AD60S4A121C2000000"><div class="card_date__3gUsN"><time dateTime="2024-11-24T20:00:00.000Z">11月25日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">「ハイブリッド接合新技術」「光電融合へ」　海外動向</p><p class="card_excerpt__tMda3">「グローバルウオッチ」では海外企業の最新動向をダイジェスト形式でお届けします。 K&Sとロームがハイブリッド接合の新技術、歩留まり向上シンガポールKulicke & Soffa Industries（キューリック・アンド・ソファ・インダストリーズ、K&S）は2024年11月13日、ロームと共同で新たなハイブリッドボンディング（ハイブリッド接合）技術を開発したと発表した。既</p></div><div class="card_imageContainer__QdZbL"><img alt="ライトマターは光インターコネクト製品「Passage」を強化して光電融合ニーズの取り込みを図る（出所：ライトマター）" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5659868022112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D651e4f242e13d54ea0b4d0a0c57033ea&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5659868022112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D651e4f242e13d54ea0b4d0a0c57033ea&w=384&q=75 2x" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC1550B0V11C24A1000000","link-to-URL":"/tech-foresight/article/DGXZQOUC1550B0V11C24A1000000/"}" href="/prime/tech-foresight/article/DGXZQOUC1550B0V11C24A1000000"><div class="card_date__3gUsN"><time dateTime="2024-11-21T20:00:00.000Z">11月22日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">東北大など、酸化亜鉛で量子ドット　新材料として浮上</p><p class="card_excerpt__tMda3">東北大学などの研究グループは、酸化物半導体の酸化亜鉛（ZnO）を用いて、量子デバイスの基本構造である電界制御量子ドットを「初めて」（研究グループ）形成し、その電気伝導特性を測定した。加えて、量子ドット内の電子数の偶奇によらない近藤効果を確認し、その特徴的な温度依存性、磁場依存性を観測した。新しい量子デバイスの開発に活用が期待される。物質・材料研究機構（NIMS）や東京大学などと共同で研究した。</p></div><div class="card_imageContainer__QdZbL"><img alt="" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC08AX80Y4A001C2000000","link-to-URL":"/tech-foresight/article/DGXZQOUC08AX80Y4A001C2000000/"}" href="/prime/tech-foresight/article/DGXZQOUC08AX80Y4A001C2000000"><div class="card_date__3gUsN"><time dateTime="2024-11-20T09:15:01.000Z">11月20日 更新</time><div class="card_wappenContainer__pFxx1"><span class="card_wappen__2c48V">無料公開記事</span></div></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">2nm半導体量産、生成AI×量子　2025年の潮流を先読み</p><p class="card_excerpt__tMda3">NIKKEI Tech Foresightでは、半導体や量子コンピューター、AI（人工知能）、ロボットなどの最先端技術分野において、2025年に何が起きるのか見通す企画「先読み2025」を掲載します。全10回の連載として、2024年11月1日から順次掲載していく予定です。「先読み2025」のラインアップ①米制裁にも引かず、中国の半導体内製化　注目5社分析②量子回路もAIが生成　「GQE」で前人未</p></div><div class="card_imageContainer__QdZbL"><img alt="" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5528172024102024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D0a8afeb43dcfd82c3384e81784418cfd&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5528172024102024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D0a8afeb43dcfd82c3384e81784418cfd&w=384&q=75 2x" 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src="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5626727015112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D317%26h%3D198%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D6e072d83f59db056d626ca82ca0c06f0&w=384&q=75"/><span class="card_credit__k14q5"></span></div></div></a><div class="stream-article-list_tagBarContainer__QF5_l"><div class="tag-bar-with-audio-save-button_container__dS_9P"><ul class="tags_tagList__kPgLB"><li class="tags_tag__wSkU2"><div class="ellipsis-button_ellipsisButton__cIsYK">…</div></li></ul><div class="tag-bar-with-audio-save-button_buttonList__RxWNu"></div></div></div></div></div><div class="stream-article-blocks_article__5vAqO"><div><a class="card_content__U9soM" data-rn-track="section-article" data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC130UQ0T11C23A0000000","link-to-URL":"/tech-foresight/article/DGXZQOUC130UQ0T11C23A0000000/"}" href="/prime/tech-foresight/article/DGXZQOUC130UQ0T11C23A0000000"><div class="card_date__3gUsN"><time dateTime="2024-11-15T03:34:51.000Z">11月15日 更新</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">最先端技術を識者と記者が解説　動画・資料アーカイブ<span class="card_icon__Z33i4"><img alt="動画あり" loading="lazy" width="16" height="16" decoding="async" data-nimg="1" class="card_iconImage__3cyVE" style="color:transparent" src="/prime/.resources/icons/icon__video.svg"/></span></p><p class="card_excerpt__tMda3">NIKKEI Tech Foresightがこれまで開催してきたイベントのアーカイブ動画をご覧いただけます。登壇者やプログラムについてはリンク先の詳細ページでご確認ください。これまで開催してきたイベント一覧 2024年11月14日開催ソニーGに問う半導体事業の針路　イメージセンサーの未来とは2024年5月14日開催NVIDIAに死角はないのか　AI半導体覇権争いを展望2024年2月5日開催ラピダ</p></div><div class="card_imageContainer__QdZbL"><img alt="" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO4682924008042024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.79%26fp-y%3D0.29%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D3cbbc1415567194b040ce734f07ae46a&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO4682924008042024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.79%26fp-y%3D0.29%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D3cbbc1415567194b040ce734f07ae46a&w=384&q=75 2x" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC1155Z0R11C24A1000000","link-to-URL":"/tech-foresight/article/DGXZQOUC1155Z0R11C24A1000000/"}" href="/prime/tech-foresight/article/DGXZQOUC1155Z0R11C24A1000000"><div class="card_date__3gUsN"><time dateTime="2024-11-11T20:00:00.000Z">11月12日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">三菱ケミG、量子MIでEUV材料探索　半導体微細化に対応</p><p class="card_excerpt__tMda3">三菱ケミカルグループが量子技術を応用したEUV（極端紫外線）露光向け材料の開発に乗り出す。量子情報を活用した新しいシミュレーション技術によって、EUV露光に適した新材料の開発を目指す。微細化が進むにつれて正確な回路パターンの形成が難しくなる課題を克服する。半導体の微細化では、ウエハーに目的の回路形状を正確に転写することが難しくなる。次世代のEUV露光技術では、要件を満たす感光性材料（レジスト）</p></div><div class="card_imageContainer__QdZbL"><img alt="三菱ケミカルGは量子技術を使ったEUVレジストの開発に乗り出す（出所：三菱ケミカルG、GRAFILM）" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5602880011112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D170eeb2c1ade28d9b04ce4f20d071062&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5602880011112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D170eeb2c1ade28d9b04ce4f20d071062&w=384&q=75 2x" 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srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5596427008112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3Dfef9c2c2722516f192bc68820b76d811&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5596427008112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3Dfef9c2c2722516f192bc68820b76d811&w=384&q=75 2x" 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Tech Foresightでは、半導体や量子コンピューター、AI（人工知能）、ロボットなどの最先端技術分野において、2025年に何が起きるのか見通す企画「先読み2025」を掲載します。全10回の連載として、2024年11月1日から順次掲載していく予定です。\n「先読み2025」のラインアップ①米制裁にも引かず、中国の半導体内製化　注目5社分析②量子回路もAIが生成　「GQE」で前人未","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":true,"operationTags":[]},{"id":"DGXZQOUC159U40V11C24A1000000","title":"「皮膚で情報感知」「シリコンの限界突破」　海外動向","createdAt":"2024-11-18T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5629820015112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=adccc30bd5e33080292f1001f23224f0","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=355d2054c40f3c95d811ab21ba3d94a2","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=60097a246d6386b8bfcbf6fc3995e9da","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c35356998d28bbb40cda99308fe169da","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=bc33a34cd826bca8167c36ef397d1e7d","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=d2b7f05aa36fa5c4ee128a87db7ed16f","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=532c6fb2fa6c7b358bd89eb22c366620","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=e8d979ad7129cda56a380e882bcaaa7b","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=970\u0026h=606\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=1e2e7730da10abb12415928a3805ad5c"},"images2x":{"use2x":false},"alt":"視覚障害者向けに環境情報を皮膚で感じられるようにする（出所：ノースウエスタン大学）","credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001006","label":"ハードウエア","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2004001","label":"グローバルトレンド","topicType":"prime-topic","isHonseki":false,"type":"topic"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100F","label":"マネジメント","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"「グローバルウオッチ」では海外企業の最新動向をダイジェスト形式でお届けします。\nノースウエスタン大、環境情報を皮膚で感じる視覚補助デバイス\n米Northwestern University（ノースウエスタン大学）は、様々な感触を皮膚に伝えるハプティック・デバイスを開発した。視覚障害を持つ人が周囲の環境を「感じる」手助けをしたり、義肢を使用している人にフィードバックを与えたりできる。研究論文が英科学","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC1522A0V11C24A1000000","title":"東大など、論理量子ビット生成を高速化　光量子計算に","createdAt":"2024-11-18T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5626727015112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=449665d54edeb40979520dbb4283b29c","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=dfac585694428ac2b78d8d1edae69db0","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=139b8fd43f37d5d13b614d33a83b5ec4","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0"},"images2x":{"use2x":false},"alt":null,"credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001005","label":"デジタル","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"東京大学大学院などの研究グループは、誤り検出・訂正用の論理量子ビットに必要な光量子状態の生成を高速化することに成功した。生成レートは約1メガヘルツ（MHz、1秒間に100万回）と、従来の約1000倍である。超高速光量子コンピューターの実現につながる研究成果としている。\n米University of Massachusetts Amherst（マサチューセッツ大学アマースト校、UMass Amhe","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC130UQ0T11C23A0000000","title":"最先端技術を識者と記者が解説　動画・資料アーカイブ","createdAt":"2023-10-17T05:00:00+09:00","updatedAt":"2024-11-15T12:34:51+09:00","featuredImage":{"id":"DSXZQO4682924008042024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=935551b94be7e9ba4674c17c4b7ecb07","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=eeba16a69e0f998947855cd0eee30585","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=028ce7e30d95cfaeb8d0f470100432c7","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=6277ba4b910f16345991a29ff4750fdd","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=7e860aa616a773a210d84304b8611360","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=3cbbc1415567194b040ce734f07ae46a","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e1831094c758a5368a2ed3f2ed300b0","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=e44a38b10785417a0df37760b84e7870","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO4682924008042024000000-1.jpg?ixlib=js-2.3.2\u0026w=1200\u0026h=750\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.79\u0026fp-y=0.29\u0026fp-z=1\u0026crop=focalpoint\u0026s=f72f79a1bc6786b9fec6cc45302f7eb7"},"images2x":{"use2x":false},"alt":null,"credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C200100F","label":"マネジメント","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"NIKKEI Tech Foresightがこれまで開催してきたイベントのアーカイブ動画をご覧いただけます。登壇者やプログラムについてはリンク先の詳細ページでご確認ください。\nこれまで開催してきたイベント一覧\n2024年11月14日開催ソニーGに問う半導体事業の針路　イメージセンサーの未来とは2024年5月14日開催NVIDIAに死角はないのか　AI半導体覇権争いを展望2024年2月5日開催ラピダ","hasVideo":true,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC1155Z0R11C24A1000000","title":"三菱ケミG、量子MIでEUV材料探索　半導体微細化に対応","createdAt":"2024-11-12T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5602880011112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=675e158bc123fb511b9ef8307359e16f","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=cc4f0b22a305da006fb2f812ccbaec4d","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=3dab77fc4c2f4197dee7373b153634c4","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=97d30929be74278fdcc227a705281388","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c94fc74cb148a27179372d536f75387b","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=170eeb2c1ade28d9b04ce4f20d071062","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=2521e1b73cb76be180e9d970e3ca3119","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c11585c735f6904ae275d752e55e3ef4","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=1200\u0026h=750\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c7c18bb6f8e1c22c4895d63853d649c4"},"images2x":{"use2x":false},"alt":"三菱ケミカルGは量子技術を使ったEUVレジストの開発に乗り出す（出所：三菱ケミカルG、GRAFILM）","credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001005","label":"デジタル","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100D","label":"AI","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"三菱ケミカルグループが量子技術を応用したEUV（極端紫外線）露光向け材料の開発に乗り出す。量子情報を活用した新しいシミュレーション技術によって、EUV露光に適した新材料の開発を目指す。微細化が進むにつれて正確な回路パターンの形成が難しくなる課題を克服する。\n半導体の微細化では、ウエハーに目的の回路形状を正確に転写することが難しくなる。次世代のEUV露光技術では、要件を満たす感光性材料（レジスト）","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC089VT0Y4A101C2000000","title":"「世界最薄ウエハー」「LIB正極の新設計法」　海外動向","createdAt":"2024-11-11T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5596427008112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5596427008112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=727941c52fcdbd3ac5a1065ea0a654f1","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5596427008112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\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Technologies（インフィニオンテクノロジーズ）は2024年10月29日、厚さが20μmと「世界最薄」（同社）のパワー半導体向けウエハーのハンドリング及び加工に成功したと発表した。ウエハーの薄化により、パワー半導体を用いた","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC313D90R31C24A0000000","title":"千葉大など、光子の情報をスピンに転写　量子通信向け","createdAt":"2024-11-11T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5558706031102024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=3a3b1c5c7e253d4abfaf2300a9a4f8df","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=693f7d180b9bd5c1891727848deb37a9","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=bc72d52144c7a71e3aa14838832e10e1","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=22f05b961752e279f7919a3cf234fce1","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=c79a7e81b519d59386f6f8275ce53fa6","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=31b93688375535006f3bc534a74035f2","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=3e38c48250b8ef1bc5c467bdaa34e177","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=f6fb3dba9818d35d922421540df352c7","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=1517\u0026h=948\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=63dca8f1df1a2197cca023f45ce4e0ca"},"images2x":{"use2x":false},"alt":null,"credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001005","label":"デジタル","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"千葉大学大学院などの研究チームは、空間偏光構造を持つ光子の量子力学的な情報を、半導体中の電子の空間スピン構造へ転写することに成功した。空間偏光構造を持つ光子は、スピン角運動量（SAM）と軌道角運動量（OAM）に関する量子情報を持つ高次元光子で、原理上1光子当たり無限の情報を乗せて伝送できる。光の角運動量の可能性を大きく広げた高次元量子インターフェースの実現につながる研究成果であり、大容量量子通信","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC068L20W4A101C2000000","title":"光量子コンピューターを商用化へ　東大発OptQCの挑戦","createdAt":"2024-11-07T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5582968006112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5582968006112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.51\u0026fp-y=0.21\u0026fp-z=1\u0026crop=focalpoint\u0026s=24df323483b20da9a175a427bf510146","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5582968006112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.51\u0026fp-y=0.21\u0026fp-z=1\u0026crop=focalpoint\u0026s=7dc0618783e8e319ae6134e4a68c4f83","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5582968006112024000000-1.jpg?ixlib=js-2.3.2\u002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\u0026 Soffa 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Tech Foresightでは、半導体や量子コンピューター、AI（人工知能）、ロボットなどの最先端技術分野において、2025年に何が起きるのか見通す企画「先読み2025」を掲載します。全10回の連載として、2024年11月1日から順次掲載していく予定です。\n「先読み2025」のラインアップ①米制裁にも引かず、中国の半導体内製化　注目5社分析②量子回路もAIが生成　「GQE」で前人未","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":true,"operationTags":[]}]},{"displayDate":"2024年11月18日(月)","articles":[{"id":"DGXZQOUC159U40V11C24A1000000","title":"「皮膚で情報感知」「シリコンの限界突破」　海外動向","createdAt":"2024-11-18T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5629820015112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=adccc30bd5e33080292f1001f23224f0","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=355d2054c40f3c95d811ab21ba3d94a2","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=60097a246d6386b8bfcbf6fc3995e9da","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c35356998d28bbb40cda99308fe169da","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=bc33a34cd826bca8167c36ef397d1e7d","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=d2b7f05aa36fa5c4ee128a87db7ed16f","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=532c6fb2fa6c7b358bd89eb22c366620","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=e8d979ad7129cda56a380e882bcaaa7b","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5629820015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=970\u0026h=606\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=1e2e7730da10abb12415928a3805ad5c"},"images2x":{"use2x":false},"alt":"視覚障害者向けに環境情報を皮膚で感じられるようにする（出所：ノースウエスタン大学）","credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001006","label":"ハードウエア","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2004001","label":"グローバルトレンド","topicType":"prime-topic","isHonseki":false,"type":"topic"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100F","label":"マネジメント","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"「グローバルウオッチ」では海外企業の最新動向をダイジェスト形式でお届けします。\nノースウエスタン大、環境情報を皮膚で感じる視覚補助デバイス\n米Northwestern University（ノースウエスタン大学）は、様々な感触を皮膚に伝えるハプティック・デバイスを開発した。視覚障害を持つ人が周囲の環境を「感じる」手助けをしたり、義肢を使用している人にフィードバックを与えたりできる。研究論文が英科学","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC1522A0V11C24A1000000","title":"東大など、論理量子ビット生成を高速化　光量子計算に","createdAt":"2024-11-18T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5626727015112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=449665d54edeb40979520dbb4283b29c","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=dfac585694428ac2b78d8d1edae69db0","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=139b8fd43f37d5d13b614d33a83b5ec4","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5626727015112024000000-1.jpg?ixlib=js-2.3.2\u0026w=317\u0026h=198\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=6e072d83f59db056d626ca82ca0c06f0"},"images2x":{"use2x":false},"alt":null,"credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001005","label":"デジタル","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"東京大学大学院などの研究グループは、誤り検出・訂正用の論理量子ビットに必要な光量子状態の生成を高速化することに成功した。生成レートは約1メガヘルツ（MHz、1秒間に100万回）と、従来の約1000倍である。超高速光量子コンピューターの実現につながる研究成果としている。\n米University of Massachusetts Amherst（マサチューセッツ大学アマースト校、UMass 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Tech Foresightがこれまで開催してきたイベントのアーカイブ動画をご覧いただけます。登壇者やプログラムについてはリンク先の詳細ページでご確認ください。\nこれまで開催してきたイベント一覧\n2024年11月14日開催ソニーGに問う半導体事業の針路　イメージセンサーの未来とは2024年5月14日開催NVIDIAに死角はないのか　AI半導体覇権争いを展望2024年2月5日開催ラピダ","hasVideo":true,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]}]},{"displayDate":"2024年11月12日(火)","articles":[{"id":"DGXZQOUC1155Z0R11C24A1000000","title":"三菱ケミG、量子MIでEUV材料探索　半導体微細化に対応","createdAt":"2024-11-12T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5602880011112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=675e158bc123fb511b9ef8307359e16f","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=cc4f0b22a305da006fb2f812ccbaec4d","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=3dab77fc4c2f4197dee7373b153634c4","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=97d30929be74278fdcc227a705281388","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c94fc74cb148a27179372d536f75387b","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=170eeb2c1ade28d9b04ce4f20d071062","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=2521e1b73cb76be180e9d970e3ca3119","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c11585c735f6904ae275d752e55e3ef4","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5602880011112024000000-1.jpg?ixlib=js-2.3.2\u0026w=1200\u0026h=750\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c7c18bb6f8e1c22c4895d63853d649c4"},"images2x":{"use2x":false},"alt":"三菱ケミカルGは量子技術を使ったEUVレジストの開発に乗り出す（出所：三菱ケミカルG、GRAFILM）","credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001005","label":"デジタル","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100D","label":"AI","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"三菱ケミカルグループが量子技術を応用したEUV（極端紫外線）露光向け材料の開発に乗り出す。量子情報を活用した新しいシミュレーション技術によって、EUV露光に適した新材料の開発を目指す。微細化が進むにつれて正確な回路パターンの形成が難しくなる課題を克服する。\n半導体の微細化では、ウエハーに目的の回路形状を正確に転写することが難しくなる。次世代のEUV露光技術では、要件を満たす感光性材料（レジスト）","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]}]},{"displayDate":"2024年11月11日(月)","articles":[{"id":"DGXZQOUC089VT0Y4A101C2000000","title":"「世界最薄ウエハー」「LIB正極の新設計法」　海外動向","createdAt":"2024-11-11T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5596427008112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5596427008112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=727941c52fcdbd3ac5a1065ea0a654f1","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5596427008112024000000-1.jpg?ix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Technologies（インフィニオンテクノロジーズ）は2024年10月29日、厚さが20μmと「世界最薄」（同社）のパワー半導体向けウエハーのハンドリング及び加工に成功したと発表した。ウエハーの薄化により、パワー半導体を用いた","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC313D90R31C24A0000000","title":"千葉大など、光子の情報をスピンに転写　量子通信向け","createdAt":"2024-11-11T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5558706031102024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=3a3b1c5c7e253d4abfaf2300a9a4f8df","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=693f7d180b9bd5c1891727848deb37a9","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=bc72d52144c7a71e3aa14838832e10e1","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=22f05b961752e279f7919a3cf234fce1","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=c79a7e81b519d59386f6f8275ce53fa6","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=31b93688375535006f3bc534a74035f2","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=3e38c48250b8ef1bc5c467bdaa34e177","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=f6fb3dba9818d35d922421540df352c7","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5558706031102024000000-1.png?ixlib=js-2.3.2\u0026w=1517\u0026h=948\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=63dca8f1df1a2197cca023f45ce4e0ca"},"images2x":{"use2x":false},"alt":null,"credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001005","label":"デジタル","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2001000","label":"IT","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C2001001","label":"電機","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"千葉大学大学院などの研究チームは、空間偏光構造を持つ光子の量子力学的な情報を、半導体中の電子の空間スピン構造へ転写することに成功した。空間偏光構造を持つ光子は、スピン角運動量（SAM）と軌道角運動量（OAM）に関する量子情報を持つ高次元光子で、原理上1光子当たり無限の情報を乗せて伝送できる。光の角運動量の可能性を大きく広げた高次元量子インターフェースの実現につながる研究成果であり、大容量量子通信","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]}]},{"displayDate":"2024年11月7日(木)","articles":[{"id":"DGXZQOUC068L20W4A101C2000000","title":"光量子コンピューターを商用化へ　東大発OptQCの挑戦","createdAt":"2024-11-07T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5582968006112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5582968006112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.51\u0026fp-y=0.21\u0026fp-z=1\u0026crop=focalpoint\u0026s=24df323483b20da9a175a427bf510146","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5582968006112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.51\u0026fp-y=0.21\u0026fp-z=1\u0026crop=focalpoint\u0026s=7dc0618783e8e319ae6134e4a68c4f83","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO558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