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高 峰

光学

个人资料

  • 部门: 物理学院
  • 性别:
  • 出生年月:
  • 专业技术职务: 副教授
  • 研究标签:
  • 毕业院校:
  • 学位: 博士
  • 学历:
  • 联系电话: 022-66229417
  • 电子邮箱: fenggao@nankai.edu.cn
  • 办公地址: 南开大学泰达学院七区403室
  • 通讯地址: 天津市滨海新区宏达街23号南开大学泰达学院应用物理研究院
  • 邮编: 300457
  • 传真:

教育经历

  • 1997-2001  南开大学物理学专业学士

  • 2001-2006  南开大学凝聚态物理博士


工作经历

  • 2014.7-2018.12 南开大学泰达学院应用物理学院(南开大学物理学院) 讲师

  • 2018.12-现今  南开大学泰达学院应用物理研究院(南开大学物理学院) 副教授

个人简介

研究领域

研究方向包括光群速调控,光纤器件与应用,微腔非线性光学等。目前负责光纤器件与应用实验室,致力于全光纤器件的开发与应用,以全光纤声光结构及光纤耦合回音廊模微腔两个方向为近年研究工作的代表,累计在Applied Physics Letters, Optics Express, Optics Letters等光学知名期刊发表系列文章,培养的博士生业已进入国内双一流大学进行科研工作。

以下为目前研究工作的重点:

1全光纤声光移频器件

全光纤声光效应带来约MHz左右的光学移频,它在超低频动态光场产生及外差探测等领域有着重要的应用。

a全光纤超低频移频器

全光纤超低频移频器可以通过干涉产生稳定的移动干涉条纹,用于CCD的特殊成像,动态可控光场的产生也是机器视觉的一个重要因素。

b 全光纤声光移频器的外差应用

通过全光纤声光外差探测,我们实现了高灵敏度的振幅探测及复杂波形的解调。对于某一频率的振幅探测分辨率可达pm量级,此方向研究对于实现精密探测具有重要的意义。进一步完善其结构并将其应用于跨学科的现代科学研究是一个重要的研究内容。


2全光纤可调谐器件

声光器件的电驱动频率控制可以达到微赫兹,而全光纤调谐器件的响应速度由声波在光纤中的传输速度决定,通常小于1ms的时间,这为全光纤精密高速调节提供了便利。

a 全光纤声光可调谐激光器

全光纤声光器件的可调谐优势为其在快速调整激光输出方面提供了极大的便利,开发全光纤声光可调谐激光器是适用光

b 矢量光速与涡旋光束

全光纤声光器件可以过模式转换在光纤中实现优质的矢量光与涡旋光束,利用这一特性,研究矢量光与涡旋光,及其与物质的相互作用是一个非常有意思的方向。


3 光纤耦合回音廊模微腔及应用

a 回音廊模微腔在光纤中的模式转换

b 准临界耦合及耦合稳定性研究

c 非线性及滤波特性


4全光纤声光器件的封装及实用化

现有的全光纤声光器件走向市场应用的最大障碍在于其结构的脆弱,如何进行高效封装是其实用化的一个重要的问题。

教学工作

大学物理基础实验 电磁学及力热实验


《自然科学技术发展简史》


科技简史与科研方法论


《光子学前沿讲座

科研项目

项目名称类型
起止
参与/主持
结题/在研
全波段、低噪声光纤放大器国家重点研发计划
2021.1-2024.12参与
在研
回音廊模光学微腔的动态损耗补偿及可调滤波器的研究与应用
自然科学基金面上项目2021.1-2024.12
主持
在研
光纤分布式传感优化及应用
企业横向
2019.9-2021.8
主持
在研
低差频激光干涉光场产生与调控中科院光电院横向
2017.9-
主持
在研
对向双光驱动回音廊模光机械参量调控的研究
自然科学基金面上项目
2016.1-2019.12
主持
结题
光子学在新材料中的应用中央高校基本科研业务费
2014.1-2014.12
参与
结题
基于等离激元结构的材料制备与红外光电转换增强效应研究973子课题
2013.1-2017.12参与
结题
非共线和频显微成像对光场传播瞬态动力学过程的研究
天津市自然科学基金青年基金
2012.4-2015.3
参与
结题
楔形超声角锥驱动的光纤结构的滤波色散特性及其应用天津市自然科学基金青年基金
2012.4-2015.3
主持
结题
新型聚合物纳米复合材料及其光子学微结构研究
科技部国家国际科技合作专项2012.1-2014.12参与结题
超声调制复合周期周期性折射率结构与光群速调控的研究自然科学基金青年基金2009.1-2011.12主持结题


论文著作

期刊论文:



Pengfa Chang, Botao Cao, Ligang Huang, Jiwei Li, Yue Hu, Feng Gao*, Wending Zhang, Fang Bo, Xuanyi Yu, Guoquan Zhang, and Jingjun Xu, “Polarization-modified Fano line shape spectrum with a single whispering gallery mode,” SCIENCE CHINA Physics, Mechanics & Astronomy,Volume 63, Issue 1: 214211(2020).

Chao Meng, Fanfan Lu, Wending Zhang*, Junqiao Wang, Dong Mao, Feng Gao, Ting Mei, Jianlin Zhao Selective remote-excitation of gap mode in metallic nanowire-nanoparticle system using chiral surface plasmon polaritons, IEEE J. Quantum Elect. 56, 7200506 (2020).

Wending Zhang*, Lu Zhang, Chao Meng, Feng Gao, Generation of nanosecond cylindrical vector beams in two mode fiber and its applications of stimulated Raman scattering, Chin. Opt. Lett. (2020). Online

Wending Zhang*, Lu Zhang, Fanfan Lu, Donghui Bai, Tianyang Xue, Chao Meng, Min Liu, Dong Mao, Feng Gao, and Ting Mei, Plasmon-enhanced nonlinear nanofocusing of gold nanoprisms driven via ultrafast azimuthal vector beam, Nanoscale 12, 7045 (2020).

Wending Zhang*, Xin Li, Lu Zhang, Ligang Huang, Fanfan Lu, and Feng Gao, Generation of cylindrical vector beams and optical vortex in a solid-core ring fiber based on an acoustically-induced fiber grating, IEEE J. Sel. Top. Quant. 26, 4500205 (2020).

Lu Zhang, Fanfan Lu, Wending Zhang*, Kun Gao, Tianyang Xue, Min Liu, Dong Mao, Ligang Huang, Feng Gao, Ting Mei, “Plasmon-enhanced linear and second-order surface nonlinear optical response of silver nanoparticles fabricated by using femtosecond pulse,” Nanotechnology 31, 035305 (2020).

Yujia Li, Ligang Huang, Haonan Han, Lei Gao, Yulong Cao, Yuan Gong, Wending Zhang, Feng Gao, Iroegbu Paul Ikechukwu, and Tao Zhu, Acousto-optic tunable ultrafast laser with vector-mode-coupling-induced polarization conversion, Photonics Research 7, 798-805 (2019).

Fanfan Lu+,Wending Zhang+*,Jiachen Zhang, Min Liu, Lu Zhang, Tianyang Xue, Chao Meng, Feng Gao, Ting Mei*, and Jianlin Zhao. Grating-assisted coupling enhancing plasmonic tip nanofocusing illumated via radial vector beam.Nanophotonics8, 2303 (2019).

Zeyang Gao, Pengfa Chang, Ligang Huang, Feng Gao, Dong Mao,Wending Zhang*,and Ting Mei, All-fiber frequency shifter consists of fiber Bragg grating modulated via acoustic flexural wave for optical heterodyne measurement,Opt. Lett.44, 3725 (2019).

Fanfan Lu,Wending Zhang*,Lu Zhang, Min Liu, Dong Mao, Ligang Huang, Feng gao, and Ting Mei, Nanofocusing of surface plasmon polaritons on metal-coated fiber tip under internal excitation of radial vector beam,Plasmonics14(6), 1593–1599 (2019).

Min Liu, Fanfan Lu,Wending Zhang*,Ligang Huang, Shuhai Liang, Dong Mao, Feng Gao, Ting Mei, and JianLin Zhao, Highly efficient plasmonic nanofocusing on metallized fiber tip with internal illumination of radial vector mode using acousto-optic coupling approach, Nanophotonics8, 921 (2019).

Wending Zhang*,Xin Li, Lu Zhang, Ligang Huang, Fanfan Lu, and Feng Gao, Generation of cylindrical vector beams and optical vortex in a solid-core ring fiber based on an acoustically-induced fiber grating,IEEE J. Sel. T. Quant. (2019).

Min Liu,Wending Zhang*,Fanfan Lu, Tianyang Xue, Lu Zhang, Ligang Huang, Feng Gao, Ting Mei, and Jianlin Zhao, Plasmonic tip integrated with azimuthally-polarized vector beam for surface enhanced Raman spectroscopy,Photonics Res.7, 526 (2019).

Pengfa Chang, Botao Cao, Feng Gao*, Ligang Huang, Wending Zhang, Fang Bo, Xuanyi Yu, Guoquan Zhang, and Jingjun Xu** “Enhance stable coupling region of a high-Q WGM up to micrometer,” Appl. Phys. Lett. 115, 211104 (2019).


Xiaoting Li, Pengfa Chang, Ligang Huang, Wending Zhang, Feng Gao*, Fang Bo, Guoquan Zhang, and Jingjun Xu, “Feasibility of quasicritical coupling based on LP modes and its application as a filter with tunable bandwidth and stable insertion loss,” Optics Express Vol. 27, Issue 16, pp. 23610-23619 (2019).

Xinli Liang , Ze Zhang , Deng Li, Xiaofang Han, Feng Gao, Zhigang Chen, “Curved volume waveguides induced by Airy beams in negative polarizability nanosuspensions, ” Optics Communications 437 90–94 (2019).

Wenbo Mao, Wei Deng, Fang Bo*, Feng Gao, Guoquan Zhang*, and Jingjun Xu*, Upper temperature limit and multi-channel effects in ellipsoidal lithium-niobate optical parametric oscillators, Opt. Express 26, 15268-15275 (2018).

ZhenZhong Hao, Li Zhang, Ang Gao, WenBo Mao, XiaoDan Lyu, XiaoMei Gao, Fang Bo*, Feng Gao, GuoQuan Zhang*, and JingJun Xu*, Periodically poled lithium niobate whispering gallery mode microcavities on a chip, Sci. China-Phys. Mech. & Astron. 61, 114211 (2018).

Fanfan Lu, Wending Zhang*, Ligang Huang, Shuhai Liang, Dong Mao,Feng Gao, Ting Mei, and Jianlin Zhao, Mode evolution and nanofocusing of grating-coupled surface plasmon polaritons on the metallic tip, Opto-Electronic Advances 1, 180010 (2018). Issue Cover

Xuecheng Zhang, Wending Zhang*, Chenyang Li, Dong Mao,Feng Gao, Ligang Huang, Dexing Yang, Ting Mei, and Jianlin Zhao, All-fiber cylindrical vector beams laser based on an acoustically-induced fiber grating, J. Opt. 20, 075608 (2018).

Wending Zhang*, Cheng Li, Kun Gao, Fanfan Lu, Min Liu, Xin Li, Lu Zhang, Dong Mao,Feng Gao, Ligang Huang, Ting Mei, and Jianlin Zhao, Surface-enhanced Raman spectroscopy with Au-nanoparticles substrates fabricated by using femtosecond pulse, Nanotechnology 29 205301 (2018).

Ligang Huang, Wending Zhang, Yujia Li, Haonan Han, Xiaoting Li, Pengfa Chang, Feng Gao, Guoquan Zhang, Lei Gao, and Tao Zhu, “Acousto-optic tunable bandpass filter based on acoustic-flexural-wave-induced fiber birefringence,”Opt. Lett. Vol. 43, Issue 21, pp. 5431-5434 (2018).

LIGANG HUANG,* PENGFA CHANG, XIAOTING LI, WENDING ZHANG, YUJIA LI, 1 FENG GAO,** FANG BO, LEI GAO, WEI HUANG, MIN LIU, AND TAO ZHU, “All-fiber narrow-linewidth ring laser with continuous and large tuning range based on microsphere resonator and fiber Bragg grating” Opt. Express. Vol 26 (25), 32652-32661(2018).

Xiaoting Li, Pengfa Chang, Ligang Huang, Feng Gao,* Wending Zhang, Fang Bo, Guoquan Zhang, and Jingjun Xu, “Quasicritical coupling in a few-mode tapered-fiber coupled whispering-gallery-mode system”, Phys. Rev. A 98, 053814(2018).

Chang Pengfa, Li Xiaoting, Huang Ligang, Gao Feng*, Zhang Wending, Bo Fang, Zhang Guoquan, Xu Jingjun, “Fast light in the generation configuration of stimulated Brillouin scattering based on high-Q micro-cavities,” Optics Express 26(12) 15377-15383(2018).

Na Yan, Xiaofang Han, Pengfa Chang, Ligang Huang, Feng Gao*, Xuanyi Yu, Wending Zhang, Ze Zhang, Guoquan Zhang, and Jingjun Xu, “Tunable dual-wavelength fiber laser with unique gain system based on in-fiber acousto-optic Mach–Zehnder interferometer,” Optics Express Vol. 25, Issue 22, pp. 27609-27615 (2017).

Wending Zhang*, Keyan Wei, Heng Wang, Dong Mao,Feng Gao, Ligang Huang, Ting Mei, and Jianlin Zhao, Tunable-wavelength picosecond vortex generation in fiber and its application in frequency-doubled vortex, J. Opt. 20, 014004 (2017).

Wending Zhang, Zhen Chen, Biqiang Jiang, Ligang Huang, Dong Mao, Feng Gao, Ting Mei, Dexing Yang, Lin Zhang, and Jianlin Zhao, “Optical Heterodyne Microvibration Detection Based on All-Fiber Acousto-Optic Superlattice Modulation,” J. light. Tech. VOL. 35, NO. 18, 3821-3823(2017).

Wending Zhang, Keyan Wei, Dong Mao, Heng Wang, Feng Gao, Ligang Huang, Ting Mei, and Jianlin Zhao, “Generation of femtosecond optical vortex pulse in fiber based on an acoustically induced fiber grating”,Optics Letters Vol. 42, Issue 3, pp. 454-457 (2017).

Keyan Wei, Wending Zhang*, Ligang Huang, Dong Mao, Feng Gao, Ting Mei, and Jianlin Zhao, “Generation of cylindrical vector beams and optical vortex by two acoustically induced fiber gratings with orthogonal vibration directions”,Optics Express Vol. 25, Issue 3, pp. 2733-2741 (2017).

J. Wang, B. Zhu, Z. Hao, F. Bo*, X. Wang*, F. Gao, Y. Li, G. Zhang*, and J. Xu, Thermo-optic effects in on-chip lithium niobate microdisk resonators. Opt. Express 24(19), 21869-21879(2016).

Wending Zhang, Ligang Huang Keyan Wei, Peng Li, Biqiang Jiang, Dong Mao, Feng Gao, Ting Mei, Guoquan Zhang, and Jianlin Zhao, High-order optical vortex generation in few-mode fiber via cascaded acoustically-driven vector mode conversion Opt. Lett. 41, 5082 (2016). OL当期封面故事

Wending Zhang, Keyan Wei, Ligang Huang, Dong Mao, Biqiang Jiang, Feng Gao, Guoquan Zhang, Ting Mei, and Jianlin Zhao, Optical vortex generation with wavelength tunability based on an acoustically-induced fiber grating, Opt. Express 24, 19278-19285 (2016). OE当期封面故事

Wending Zhang, Ligang Huang, Keyan Wei, Peng Li, Biqiang Jiang, Dong Mao, Feng Gao, Ting Mei, Guoquan Zhang, and Jianlin Zhao, Cylindrical vector beam generation in fiber with mode selectivity and wavelength tunability over broadband by acoustic flexural wave, Opt. Express 24, 10376-10384 (2016).

Ligang Huang, Xiaobo Song, Pengfa Chang, Weihua Peng, Wending Zhang, Feng Gao, Fang Bo, Guoquan Zhang, and Jingjun Xu, “All-fiber tunable laser based on an acousto-optic tunable filter and a tapered fiber”, Optics Express Vol. 24, Issue 7, pp. 7449-7455 (2016).

Ligang Huang, Jie Wang, Weihua Peng, Wending Zhang, Fang Bo, Xuanyi Yu, Feng Gao*, Pengfa Chang, Xiaobo Song, Guoquan Zhang, and Jingjun Xu, “Mode conversion in a tapered fiber via a whispering gallery mode resonator and its application as add/drop filter”, Optics Letters Vol. 41, Issue 3, pp. 638-641 (2016).

Ligang Huang, Pengfa Chang, Xiaobo Song, Weihua Peng, Wending Zhang, Feng Gao*, Fang Bo, Guoquan Zhang, and Jingjun Xu, “Tunable in-fiber Mach-Zehnder interferometer driven by unique acoustic transducer and its application in tunable multi-wavelength laser”, Opt. Express 24(3), 2406-2412 (2016).

Jie Wang, Fang Bo,  Shuai Wan, Wuxia Li, Feng Gao, Junjie Li, Guoquan Zhang, and Jingjun Xu, “High-Q lithium niobate microdisk resonators on a chip for efficient electro-optic modulation”, Opt. Express, 23, 23072-23078(2015).

Wending Zhang*, Wei Gao, Ligang Huang, Dong Mao, Biqiang Jiang, Feng Gao**, Dexing Yang, Guoquan Zhang, Jingjun Xu, and Jianlin Zhao, “Optical heterodyne micro-vibration measurement based on all-fiber acousto-optic frequency shifter,” Optics Express, 23, 17576-17583(2015).

Ligang Huang, Weihua Peng, Feng Gao, Fang Bo, Guoquan Zhang, and Jingjun Xu, “Mutually modulated cross-gain modulation with a considerable modulation wavenumber-interaction length product,” Optics Express, 23, 12004-12012(2015).

Wenhua Li, Zhenhua Wang, * Xinzheng Zhang, Yu-E Wu, Wenying Liao, Ligang Huang, Feng Gao, Wande Fan, Wei Li, Qiang Wu, and Jingjun Xu, “Convenient ultra-broadband femtosecond optical gating utilizing transient beam deflection effect,” Opt. Express, Vol. 22, No. 25, 31417-31425(2014).

Sheng, Qi-Wen; *Feng, Ming; Xin, Wei; Guo, Hao; Han, Tian-Yu; Li, Yi-Gang; Liu, Yan-Ge; Gao, Feng; Song, Feng; Liu, Zhi-Bo; Tian, Jian-Guo “Tunable graphene saturable absorber with cross absorption modulation for mode-locking in fiber laser “, Applied Physics Letters, 105, 041901 (2014).

Yu-E Wu, Zhenhua Wang*, Xinzheng Zhang, Wenhua Li, Ligang Huang, Feng Gao, Wei Li, Qiang Wu, and Jingjun Xu,  Polarization independent broadband femtosecond optical gating using transient Kerr lens effect, Optics Express, 22, 6691-6698 (2014).

Wending Zhang, Ligang Huang, Feng Gao, Fang Bo, Guoquan Zhang,and Jingjun Xu, Tunable broadband light coupler based on two parallel all-fiber acousto-optic tunable filters, Optics Express, 21, 16621-16628 (2013). 3.546

Feng Gao, Ravi Pant, Enbang Li, Christopher G. Poulton, Duk-Yong Choi, Stephen J. Madden,Barry Luther-Davies,and Benjamin J. Eggleton, On-chip high sensitivity laser frequency sensing with Brillouin mutually-modulated cross-gain modulation, Optics Express, 21, 8605-8613 (2013). 3.546

Wending Zhang, Ligang Huang, Feng Gao*Fang Bo, Guoquan Zhang* and Jingjun Xu, “All-fiber tunable Mach-Zehnder interferometer based on an acousto-optic tunable filter cascaded with a tapered fiber” Optics Communications, 292, 46-48(2013).1.438

Kang Tan, David Marpaung, * Ravi Pant, Feng Gao, Enbang Li, Jian Wang, Duk-Yong Choi, Steve Madden, Barry Luther-Davies, Junqiang Sun, and Benjamin J. Eggleton, “Photonic-chip-based all-optical ultra-wideband pulse generation via XPM and birefringence in a chalcogenide waveguide”, Optics Express, 21, 2003-2011 (2013).3.546

Wending Zhang, Ligang Huang, Feng Gao*, Fang Bo, Li Xuan, Guoquan Zhang, and Jingjun Xu, Tunable add/drop channel coupler based on an acousto-optic tunable filter and a tapered fiber, Optics Letters, 37(7) , 1241-1243(2012). 3.399

Qiang Wu, Shangyu Guo, Yinxing Ma, Feng Gao, Chengliang Yang, Ming Yang, Xuanyi Yu, Xinzheng Zhang, Romano A. Rupp, and Jingjun Xu *,“Optical refocusing three-dimensional wide-field fluorescence lifetime imaging microscopy”,Opt. Express20960-965(2012).

Zhang Wending; Gao Feng*; Bo Fang; Wu Qiang; Zhang Guoquan**; Xu Jingjun, “All-fiber acousto-optic tunable notch filter with a fiber winding driven by a cuneal acoustic transducer” Optics Letters, Vol. 36 Issue 2, 271-273(2011).

Fang Bo, Ze Liu, Feng Gao, Guoquan Zhang, and Jingjun Xu, Slow and fast light in photorefractive GaAs-AlGaAs multiple quantum wells in transverse geometry, J. Appl. Phys. 108, 063101 (2010)

Gao F, Xu J J, Zhang G Q, et al. “Nonlinear optical properties and superluminal propagation in the ruby.” Chinese Sci Bull, 55:473-477 (2010).

Li Wei, Tang Baiquan, Zhang Xinzheng, Gao Feng, Liu Longchang, Wu Qiang, Pan Leiting, Lou Cibo, Guo Shangyu, Rupp Romano A., Xu Jingjun, “Investigation on the phase shifts of extinction and phase gratings in polymethyl methacrylate” 中国光学快报(English), 8(1), 18-21(2010).

唐柏权, 向吟啸, 张文定, 高峰, 齐继伟, 王振华, 张心正, 张国权, 许京军. 普洱茶的非线性光学效应与光速调控. 科学通报, 2010, 55 (1): 15-19

Wending Zhang, Feng Gao*, Guoquan Zhang, Wei Li, Xinzheng Zhang, and Jingjun Xu, Experimental observation of subluminal and superluminal light propagation in R6G -doped PMMA , Appl. Phys. Lett. 95, 171106 (2009).

Lei Xu, Guoquan Zhang, Ningning Xu, Fang Bo, Feng Gao, Wande Fan, Jingjun Xu, Kar Pong Lor, and Kin Seng Chiang, “Active chromatic control on the group velocity of light at arbitrary wavelength in benzocyclobutene polymer,” Opt. Express, 17, 18292(2009).

高峰,许京军,张国权,.红宝石中的弱光非线性与超光速传播.科学通报, 54(7): 861~865(2009) (in chinese).

Zhang Xin-Zheng, Wang Zhen-Hua, Li Hui, Wu Qiang, Tang Bai-Quan, Gao Feng, Xu Jing-Jun. “Characterization of Photon Statistical Properties with Normalized Mandel Parameter”. Chinese Physics Letters, 25(11), pp 3976-3979, 2008/11(SCIE).

Li Wei, Zhang Xin-Zheng, Shi Yan-Li, Xu Jing-Jun, Qiao Hai-Jun, Wu Qiang, Rupp, Romano A., Lou Ci-Bo, Wang Zhen-Hua, Gao Feng, Tang Bai-Quan, Pruner, Christian “Photopolymerization-induced two-beam coupling and light-induced scattering in polymethyl methacrylate”. Chinese Physics Letters, 25(8), pp 2857-2859, 2008/8(SCIE).

Guoquan Zhang, Fang Bo, Feng Gao, Rong Dong, Yanfei Tu and Jingjun Xu. “Slow and fast lights with moving and stationary refractive index gratings in solids at room temperature.” International Journal of Modern Physics B Vol. 22, No. 5 447468(2008)

Feng Gao, Jingjun Xu , Guoquan Zhang , Haixu Liu and Fang Bo, “Paraxial energy transport of a focused Gaussian beam in ruby with nondegenerate two-wave couplinglike mechanism” Appl. Phys. Lett., Vol92, 021121(2008).

Dengsong Zhu, Jingjun Xu, Haijun Qiao, Wei Li, Yanli Shi, Feng Gao, Zhenhua Wang, Bo Fu, Guoquan Zhang, “Temperature dependence of photorefractive effect in reduced near stoichiometric LiNbO3 crystals”, Opt. Commun. 272, 391-394 (2007).

涂燕飞,张国权,陈聪,高峰,薄方,刘建彬,许京军,固体介质中的电磁感应透明效应及其应用,物理36(5), 391-396 (2007).

Dengsong Zhu, Jingjun Xu * , Haijun Qiao, Yanli Shi, Feng Gao, Wei Li,Bo Fu, Guaquan Zhang, Ke Zheng, “Ultraviolet photorefractive eect in Mg-doped near-stoichiometric LiNbO 3”, Opt. Commun. 266, 582–585(2006)

Feng Gao, Jingjun Xu, Haijun Qiao, Qiang Wu, Yin Xu, Guoquan Zhang. “Observation of superluminal and slowdown light propagation in doped lithium niobate crystals”. Opt. Commun.,257: 185-190(2006).

Feng Gao, Jingjun Xu, Boxia Yan, Jianghong Yao, Bo Fu, Zhenhua Wang, Jiwei Qi, Baiquan Tang and Romano A.Rupp. “Refractive index changes by electrically-induced domain reversal in a c-cut slab of LiNbO3”. Appl. Phys. Lett., vol.87: 252905(2005).


专利


1.高峰,许京军,张国权,薄方,自泵浦延迟可调光脉冲群速延迟器 2012125日,中国,专利授权号:ZL200710151177.1

2.高峰,黄礼刚,张国权,许京军,一种基于声光作用的全光纤延迟线切换开关,专利号:201410578885.3

3.高峰,韩小芳,张国权,许京军,一种基于声光作用的全光纤光学移频器及其移频方法,专利号:201711114695.6

4.高峰,李晓婷,韩小芳,黄礼刚,许京军,一种基于声光作用的全光纤反射式光学移频器及移频方法, 受理号201711364094.0

5.高峰,张国权,许京军,薄方,一种光纤声光器件应力可调节支架及其系统,专利号201821408456.1



学术交流

2012.3-2013.3  澳大利亚悉尼大学访问学者

荣誉奖励

学术成果

学位: 博士

毕业院校:

邮件: fenggao@nankai.edu.cn

办公地点: 南开大学泰达学院七区403室

电话: 022-66229417

出生年月:

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