王 欣
近期热点
资料介绍
个人简历
教育经历: 2005/5 - 2010/2,柏林工业大学,物理,博士,导师:A. DIng; H.J. Eichler 2002/9 - 2005/3,北京理工大学,物理电子学,硕士,导师:杨苏辉 1998/9 - 2002/7,北京理工大学,光电工程,学士工作经历: 2014/7 – 现在,北京理工大学光电学院,副教授 2011/3 – 2014/6,北京理工大学光电学院,讲师 2010/2 - 2011/2,柏林工业大学,物理系,博士后研究领域
红外动态场景模拟器:可实现中波红外及长波红外的场景模拟,生成红外场景的分辨率、灰度等级等指标达到国内先进水平。所研制设备已在国内航天及兵器多个研究单位获得成功应用。 中红外光学参量振荡器:可实现高效率、宽光谱调谐范围的中红外激光输出,可实现单频运转。在生物化学、光谱技术及红外对抗领域有广泛应用。 飞秒光纤激光器及其倍频研究:可获得300mW通信波段飞秒输出,利用周期性极化晶体倍频,可获得60%以上的转换效率;在多光子荧光医疗成像领域有很好的应用。 差分吸收雷达激光光源:完成了水蒸气及甲烷吸收测试光源的研制,可用于天气情况探测和预警。光源综合指标处于世界领先水平"科研项目: 1、窄带可调谐中红外光学参量振荡器,国家自然科学基金 2013-2015,主持。2、量子场光束匀化研究,航天五院,2015-2016,主持。3、红外光学标校设备,航天二院,2014-2016,主持。4、红外成像模拟装置成像质量评价方法,航天八院, 2014-2015,主持。5、中红外光学参量振荡器关键技术研究,科研基地科技支撑计划,2014-2015,主持。6、高分辨率视频/红外转换器,十二五预研,2011-2015,主要参与。7、红外/毫米波波束合成技术研究,十二五预研,2011-2015,主要参与"近期论文
论文专著:1.X Wang, H Fritsche, O Lux, H J Eichler, Z G Zhao, Casey Schuett and Bastian Kruschke, “Dual-wavelength Q-switched Er:YAG laser around 1.6 μm for methane differential absorption lidar”, Laser Phys. Lett. 10, pp.115804, 2013.2.H Fritsche, O Lux, X Wang, Z Zhao and H J Eichler, “Resonantly diode pumped Er:YAG laser systems emitting at 1645 nm for methane detection”, Laser Phys. Lett. 10, pp.105805, 2013.3.Wang X, Eichler HJ, Lin Z, Gao C, Yang S.,“ Stable and tunable single frequency Nd:GSAG laser around 943 nm”, Appl. Opt., 52(30), pp. 3702-10, 2013.4.X. Wang, T. Riesbeck, H.J. Eichler, “Tunable single frequency microchip Nd:YAP MOPA laser operating at 1.08 μm”, Laser Physics, 23, 045804,2013.5.Aicha OTMANI, Xin Wang*, Hongjie Wang, Zhuo Li, “A display technology based on Fabry Perot interferometer array”, Proc. of SPIE Vol. 8905 89051M-1,2013.6.X. Wang, H.J. Eichler, Zhiguo Zhang, “Diode-pumped actively Q-switched Nd:GGG laser at 938 nm”, Optics and Laser Technology, 44, pp. 476-481,2012.7.X. Wang, S. Wang H. Rhee, H.J. Eichler, S. Meister, “LD end pumped mode locked, cavity dumped Nd:YAP laser at 1.34 um”, Optic Commun., 284, pp. 3014-3017,2011.8.X. Wang, H. J. Eichler, A. Ding, “Chapter 14 Airborne Water Vapor Differential Absorption Lidar”, N. B. Chang Eds., Advances in Hydrological Remote Sensing to Monitor Global Changes, CRC Florida, USA, 2011.9.X. Wang, “Pulsed, diode--pumped Nd-doped lasers at 0.94 m and applications”, ISBN-13: 978 3 86664 745 9, Mensch und Buch Verlag Berlin, 2010.10.Z. Lin, X. Wang*, F. Kallmeyer, H. J. Eichler , C. Gao, “Single frequency operation of a tunable injection-seeded Nd:GSAG Q-switched laser around 942nm”, Opt. Exp. 18,pp. 6131-6138, 2010.11.X. Wang, F. Kallmeyer, A. Ding, H.J. Eichler, “Injection seeded frequency stabilized Nd:GSAG ring laser for water vapor detection”, DPG conference, Hannover, Germany, Q26.7, 2010.12.S. Wang, X. Wang, H. Rhee, S. Meister and H.J. Eichler, “Cavity damped mode locked Nd:YAP laser at 1341 nm”, DPG cnference, Hannover, Germany, Q26.1, 2010.13.F. Kallmeyer, X. Wang, H.J. Eichler, “Tunable Nd:GSAG laser around 943 nm for water vapor detection”, Proc. of SPIE. 131, pp. 713111, 2009.14.X. Wang, F. Kallmeyer, S. Wang, A. Ding, H.J. Eichler, Z.G. Zhang, “Blue light generation of strongly focused Gaussian beams by frequency doubling of Nd:GSAG laser”, IEEE of Quantum Electron. 45, pp. 783-791, 2009.15.X. Wang, F. Kallmeyer, S. Wang, A. Ding, H.J. Eichler, “Frequency doubling of focused laser beams for high pulse energy at 471 nm”, Proceedings of SPIE. 7194, 2009. 16.X.Wang, F. Kallmeyer, H.J. Eichler, etc., “Tunable Q-switched Nd:GSAG laser at 943 nm for water vapor detection”, Proceedings of SPIE. 7479-26, 2009. 17.S. Wang, X. Wang, T. Riesbeck, H.J. Eichler, “Thermallensing effects in pulsed end pumped Nd lasers at 940 nm”, Proc. of SPIE. 7194, pp. 71940J, 2009. 18.S. Wang, X. Wang, F. Kallmeyer, J. Chen and H.J. Eichler, “Model of pulsed Nd:GSAG laser at 942 nm considering rate equations with cavity structure”, Appl. Phys. B. 92, pp. 43-48, 2008.19.S. Wang, X. Wang, F. Kallmeyer, J. Chen and H.J. Eichler, “Modeling of solid state lasers: considering the change of laser beam diameter”, ThW4-08, Laser Optics, St. Petersburg, Russia, 2008.20.X. Wang, F. Kallmeyer, A. Ding, H.J. Eichler, “High energy blue light generation with circular and elliptical Gaussian beam by external cavity frequency doubling”, Laser Optics, St. Petersburg, Russia, WeR1-37, 2008.担任Optics Communications, Laser Physics等期刊审稿人 相关热点