<html> <body background = "OpticsJournal-33.jpg"> <title>A. Costela</title> <center><a href="http://www.tunablelasers.com"><img src = "http://www.tunablelasers.com/tunablelasers-7.jpg" align = leftt border = 0></a></center> <link rel="stylesheet" type="text/css" media="screen" href="experiment-7.css"></link> <center><h1>A. Costela</h1></center> <br> <BODY LINK="#000066" VLINK="004466" ALINK="#000066"> <img src = "http://www.tunablelasers.com/angelcostela.jpg" align = right border = 0></a> <h2>Brief Biography</h3> <p>Angel Costela received his Ph.D. degree in Physics from the Universidad Complutense de Madrid, Spain, in 1980 for studies on fundamental processes in the photochemical iodine laser. He has been a visiting scientist at the Clarendon Laboratory of The University of Oxford, where he carried out research on frequency up-conversion by resonantly enhanced sum-frequency mixing in metallic vapors. He holds currently the position of Professor of Research at Instituto Rocasolano, Consejo Superior de Investigaciones Cient韋icas (CSIC), Madrid, Spain. He has published over 165 papers in peer-reviewed journals and has contributed to over 8 collective books co-authoring chapters on advanced electronic and photonic materials, lasers, and medical applications of lasers. His current research interests include the study and development of solid state dye lasers, laser ablation of materials, nonlinear optics, and nanostructured materials for advanced biophotonic and laser applications. Professor Costela is a Fellow of <i>The Optical Society of America</i>. .</p> <h2>Selected Publications</h2> <ul> <li>A. Costela, I. Garc韆-Moreno, and C. Gomez, Medical applications of organic dye lasers, in <a href="http://www.opticsjournal.com/tla.htm"><i>Tunable Laser Applications</i></a>, 3rd Ed., F. J. Duarte, Ed. (CRC, New York, 2016) Chapter 8. </ul> <br> <center> <a href="http://www.tunablelasers.com/tla.htm"><img src = "http://www.tunablelasers.com/FJ DUARTE-LASERS TLA3rd.png"></a></center> <br> <ul> <li> L. Cerd醤, J. Braborec, I. Garcia-Moreno, A. Costela, M. G. S. Londesborough, A borane laser, <i>Nature Commun.</i> 6, 5958 (2015). <li>L. Cerd醤, E. Enciso, V. Mart韓, J. Ba駏elos, I. L髉ez Arbeloa, A. Costela, and I. Garc韆-Moreno, FRET assisted laser emission in colloidal suspensions of dye-doped latex nanoparticles, <i>Nature Photon.</i> 6, 621 (2012). <li>A. Costela, I. Garc韆-Moreno, L. Cerdan, V. Mart韓, O. Garc韆, and R. Sastre, Dye-doped POSS solutions: random nanomaterials for laser emission, <i>Adv. Mat.</i> 21, 1-4 (2009). <li>A. Costela, I. Garc韆-Moreno, D. del Agua, O. Garc韆, and R. Sastre, Solid-state dye-lasers: new materials based on silicon, <i>Opt. J.</i> <b>1</b>, 1-6 (2007). <li>A. Costela, I. Garc韆-Moreno, O. Garc韆, D. del Agua, R. Sastre, Structural influence of the inorganic network in the laser performance of dye-doped hybrid materials, <i>Appl. Phys. B</i> 80, 749-755 (2005). <li>A. Costela, I. Garc韆-Moreno, D. del Agua, O. Garc韆, and R. Sastre, Silicon-containing organic matrices as hosts for highly photostable solid-state dye lasers, <i>Appl. Phys. Lett.</i> 85, 2160-2162 (2004). <li>F. J. Duarte and A. Costela, Dye lasers, in <i>Encyclopedia of Modern Optics</i>, B. D. Guenther, Ed. (Elsevier, New York, 2004) pp. 400-414. <li>I. Garc韆-Moreno, A. Costela, L. Campo, R. Sastre, F. Amat-Guerri, M. Liras, F. L髉ez Arbeloa, J. Ba駏elos Prieto, and I. L髉ez Arbeloa, 8-phenyl-substituted dipyrromethene BF₂ complexes as highly efficient and photostable laser dyes, <i>J. Phys. Chem. A.</i> 108, 3315-3323 (2004). <li>A. Costela, I. Garc韆-Moreno, C. G髆ez, O. Garc韆, L. Garrido, and R. Sastre, Highly efficient and stable doped hybrid organic-inorganic materials for solid-state dye lasers, <i>Chem. Phys. Lett.</i> 387, 496-501 (2004). <li>A. Costela, I. Garc韆-Moreno, and R. Sastre, Polymeric solid-state dye lasers: recent developments, <i>Phys. Chem. Chem. Phys.</i> 5, 4745-4763 (2003). <li>K. M. Abedin, M. Alvarez, A. Costela, I. Garc韆-Moreno, O. Garc韆, R. Sastre, D.W. Coutts, and C.E. Webb, 10 kHz repetition rate solid-state dye laser pumped by diode-pumped solid-state laser, <i>Opt. Commun.</i> 218, 359-363 (2003). <li> A. Costela, I. Garc韆-Moreno, <a href="http://www.tunablelasers.com/rsastre.htm">R. Sastre</a>, D.W. Coutts, and C.E. Webb, High repetition rate polymeric solid-state dye lasers pumped by a copper-vapor laser, <i>Appl. Phys. Lett.</i> 79, 452-454 (2001). </ul> <br> <br> <center><h2>Additional Biographies</h2></center> <center><a href="http://www.opticsjournal.com/reaitchison.htm">Ronald E. Aitchison</center> <center><a href="http://www.opticsjournal.com/fchong.htm">Frederick Chong</center> <center><a href= "http://www.tunablelasers.com/rhdalitz.htm">Richard H. Dalitz</a></center> <center><a href= "http://www.tunablelasers.com/fjduarte.htm">Francisco J. Duarte</a></center> <center><a href= "http://www.tunablelasers.com/lwhillman.htm">Lloyd W. Hillman</a></center> <center><a href="http://www.tunablelasers.com/rojames.htm">Robert O. James</a></center> <center><a href="http://www.tunablelasers.com/welamb.htm">Willis E. Lamb</a></center> <center><a href="http://www.tunablelasers.com/ieolivares.htm">Ignacio E. Olivares</a></center> <center><a href="http://www.tunablelasers.com/bjorr.htm">Brian J. Orr</a></center> <center><a href="http://www.tunablelasers.com/japiper.htm">James A. Piper</a></center> <center><a href="http://www.tunablelasers.com/rsastre.htm">Roberto Sastre</a></center> <center><a href="http://www.tunablelasers.com/tmshay.htm">Thomas M. Shay</a></center> <center><a href="http://www.tunablelasers.com/kmvaeth.htm">Kathleen M. Vaeth</a></center> <center><a href="http://www.opticsjournal.com/ward.htm">John Clive Ward</a></center> <center><a href="http://www.tunablelasers.com/cewebb.htm">Colin E. Webb</a></center> <br> <br> <center> <a href="http://www.tunablelasers.com/dyelasers.htm"><h2>More on DYE LASERS</a></h2> <font size=1> <p>Page published on the <i>9th of February, 2005</i></p> <p>Updated on the <i>3rd of August, 2023</i></p> </html>