王英

  • 姓名:王英
  • E-mail:yingwang@szu.edu.cn
  • 电话:0755-26538561转807
  • 地址:深圳大学光电工程学院326室

王英,博士,2004年毕业于华中科技大学,获应用物理专业理学学士学位;同年被免试推荐直接攻读物理电子学专业博士(2009-2010在香港理工大学联合培养),2010年获工学博士学位;随后继续在香港理工大学电机工程系从事光纤传感领域的研究工作,2015年加入深圳大学王义平教授课题组。目前已主持和参与完成国家自然科学基金、香港研资局基金等6项,已发表SCI期刊论文33篇,国际会议论文7篇(SCI总引用324次,单篇最高引用72次),撰写外文学术专著1章,授权美国发明专利2项。

教育经历

  • 2004,09—2010,06 华中科技大学,武汉光电国家实验室,物理电子学,工学博士
  • 2000,09—2004,06 华中科技大学,物理系,应用物理学,工学学士

期刊论文

[1]Ying Wang, D. N. Wang, Fan Yang, Zhi Li, and Minghong Yang. Sensitive hydrogen sensor based on selectively infiltrated photonic crystal fiber with Pt-loaded WO3 coating. Optics Letters, 39: 3872-3875, 2014.
[2]Ying Wang, D. N. Wang, C. R. Liao, TianYi Hu, Jiangtao Guo, Huifeng Wei. Temperature-insensitive refractive index sensing by use of micro Fabry–Pérot cavity based on simplified hollow-core photonic crystal fiber. Optics Letters, 38: 269-271, 2013.
[3]Ying Wang, D. N. Wang, Chao Wang, TianYi Hu. Compressible fiber optic micro-Fabry-Pérot cavity with ultra-high pressure sensitivity. Optics Express, 21: 14084-14089, 2013.
[4]Ying Wang, C. R. Liao, D. N. Wang. Embedded coupler based on selectively infiltrated photonic crystal fiber for strain measurement. Optics Letters, 37: 4747-4749, 2012.
[5]Ying Wang, Minwei Yang, C. R. Liao, and D. N. Wang. Selectively infiltrated photonic crystal fiber with ultrahigh temperature sensitivity. IEEE Photonics Technology Letters, 23: 1520-1522, 2011.
[6]Ying Wang, D. N. Wang, Minwei Yang, and C. R. Liao. Asymmetric Microhole- structured long-period fiber gratings. Sensors and Actuators B: Chemical, 160: 822-825, 2011.
[7]Ying Wang, Minwei Yang, D. N. Wang, Shujing Liu, and Peixiang Lu. Fiber in-line Mach-Zehnder interferometer fabricated by femtosecond laser micromachining for refractive index measurement with high sensitivity. J. of Optical Society of America B, 27: 370-374, 2010 (SCI引用72次).
[8]Ying Wang, C. R. Liao, and D. N. Wang. Femtosecond laser-assisted selective infiltration of microstructured optical fibers. Optics Express, 18: 18056-18060, 2010.
[9]Ying Wang, Yuhua Li, Changrui Liao, D. N. Wang, Minwei Yang, and Peixiang Lu. High-temperature sensing using miniaturized fiber in-line Mach–Zehnder interferometer. IEEE Photonics Technology Letters, 22: 39-41, 2010.
[10]Ying Wang, Li Yu-Hua, and Lu Pei-Xiang. Infrared femtosecond laser direct-writing digital volume gratings in fused silica. Chinese Physics Letters, 27: 044213, 2010.
[11]Ying Wang, D. N. Wang, Minwei Yang, Wei Hong, and Peixing Lu. Refractive index sensor based on a microhole in single-mode fiber created by the use of femtosecond laser micromachining. Optics Letters, 2009, 34: 3328-3330, 2009.
[12]Ying Wang, Nengli Dai, Yuhua Li, Xinlin Wang, and Peixiang Lu. Ablation and cutting of silicon wafer and micro-mould fabrication using femtosecond laser pulses. Journal of Laser Applications, 19: 240-244, 2007.
[13]Huifang Chen, Ying Wang, and D. N. Wang. Selectively Infiltrated PCF for Directional Bend Sensing With Large Bending Range. IEEE Photonics Technology Letters, 27: 502-505, 2015.
[14]Huifang Chen, D. N. Wang, and Ying Wang. Simultaneous strain and temperature sensing using a slightly tapered optical fiber with an inner cavity. Analyst, 140: 1859-1862, 2015.
[15]Maoxiang Hou, Ying Wang, Shuhui Liu, Jiangtao Guo, Zhihua Li, and Peixiang Lu. Sensitivity-enhanced pressure sensor with hollow-core photonic crystal fiber. Journal of Lightwave Technology, 32: 4035-4039, 2014.
[16]Shuhui Liu, Ying Wang, Maoxiang Hou, Jiangtao Guo, Zhihua Li, and Peixiang Lu. Anti-resonant reflecting guidance in alcohol-filled hollow core photonic crystal fiber for sensing applications. Optics Express, 21: 31690-31697, 2013.
[17]C. R. Liao, D. N. Wang, Ying Wang. Microfiber in-line Mach-Zehnder interferometer for strain sensing. Optics Letters, 38, 757-759, 2013.
[18]T. Y. Hu, Ying Wang, C. R. Liao, D. N. Wang. Miniaturized fiber in-line Mach–Zehnder interferometer based on inner air cavity for high-temperature sensing. Optics Letters, 37: 5082-5084, 2012.
[19]Minwei Yang, D. N. Wang, Ying Wang, and C. R. Liao. Fiber in-line Mach–Zehnder interferometer constructed by selective infiltration of two air holes in photonic crystal fiber. Optics Letters, 36: 636-638, 2011.
[20]Ningliang Liu, Yuhua Li, Ying Wang, Haiyan Wang, and Peixiang Lu. Bending insensitive sensors for strain and temperature measurements with Bragg gratings in Bragg fibers. Optics Express, 19: 13880-13891, 2011.
[21]Changrui Liao, Ying Wang, D. N. Wang, and Long Jin. Femtosecond-laser inscribed long period gratings in all-solid photonic crystal fibers. IEEE Photonics Technology Letters, 22:425-427, 2010.
[22]C. R. Liao, Ying Wang, D. N. Wang, and M. W. Yang. Fiber in-line Mach-Zehnder interferometer embedded in fiber Bragg grating for simultaneous refractive index and temperature measuremnent. IEEE Photonics Technology Letters, 22: 1686-1688, 2010.
[23]Shujing Liu, Long Jin, Wei Jin, Dongning Wang, Changrui Liao, and Ying Wang. Structural long period gratings made by drilling micro-holes in photonic crystal fibers with a femtosecond infrared laser. Optics Express, 18: 5496-5503, 2010.
[24]Minwei Yang, D. N. Wang, Ying Wang, and Changrui Liao. Long period fiber grating formed by periodically structured microholes in all-solid photonic bandgap fiber. Optics Express, 18: 2183-2189, 2010.
[25]Xia Fang, X. Y. He, C. R. Liao, Minwei Yang, D. N. Wang, and Ying Wang. A new method for sampled fiber Bragg grating fabrication by use of both femtosecond laser and CO2 laser. Optics Express, 18: 2646-2654, 2010.
[26]Zhang Ji-Huang, Liu Ning-Liang, Ying Wang, Ji Ling-Ling, and Lu Pei-Xiang. Dual-peak Bragg grating inscribed in Bragg fiber for sensing applications. Chinese Physics Letters, 29: 074205, 2012.
[27]Jingwen Qiu, Wei Hong, D. N. Wang, Dingshan Gao, Ying Wang, and Yuhua Li. Transmission properties of the single mode fiber with a cross-sectional micro-channel investigated using time-domain finite difference (FDTD) method. Optical Fiber Technology, 17: 580-585, 2011.
[28]Xinlin Wang, Peixiang Lu, Nengli Dai, Changrui Liao, Ying Wang, Qiguang Zheng, Xingpeng Guo, Qiang Zhang. Femtosecond laser direct fabrication of metallic microcantilevers for micro-corrosion-fatigue test. Journal of Micromechanics and Microengineering, 17: 1307-1313, 2007.
[29]Yuhua Li, Peixiang Lu, Nengli Dai, Xinlin Wang, Ying Wang, Beihai Yu, Hua Long. Surface relief diffraction gratings written on β-BaB2O4 crystal by femtosecond pulses. Applied Physics B, 88: 227-230, 2007.
[30]Benhai Yu, Peixiang Lu, Nengli Dai, Yuhua Li, Xinlin Wang, Ying Wang, and Qiguang Zheng. Femtosecond laser-induced sub-wavelength modification in lithium niobate single crystal. Journal of Optics A: Pure and Applied Optics, 10: 035301,2008.
[31]Yuhua Li, Peixiang Lu, Nengli Dai, Hua Long, Ying Wang, and Benhai Yu. Morphology of femtosecond laser-induced structural changes in KTP crystal. Applied Surface Science, 253:1443-1446, 2006.
[32]蒋鲁杰, 戴能利, 王英, 张继皇, 陆培祥. 飞秒激光改性玻璃微结构的化学腐蚀特性研究. 高等学校化学学报, 28(06): 1165-1168, 2007. (SCI收录)
[33]余本海,戴能利,王英,李玉华,季玲玲,郑启光,陆培祥. 飞秒激光烧蚀LiNbO3晶体的形貌特征与机理研究.物理学报, 56:5821-5826, 2007. (SCI收录)

会议论文

[1]Ying Wang, and D. N. Wang. Selectively infiltrated photonic crystal fibers for strain measurement. 22nd International Conference on Optical Fiber Sensors (OFS), Beijing, China, Oct 15-19, 84217J, 2012.
[2]Ying Wang, D. N. Wang, Minwei Yang, Wei Hong, and Peixiang Lu. Femtosecond laser drilled micro-hole in a sing-mode fiber for refractive index sensing. International Symposium on Optomechatronic Technologies (ISOT 2009), Istanbul, Turkey, Sep 21-23, 357-359, 2009.
[3]C. R. Liao, Ying Wang, D. N. Wang, and M. Yang. Multi-parameter sensor using fiber in-line MZ interferometer embedded in fiber Bragg grating. Fourth European Workshop on Optical Fibre Sensors (EWOFS 2010), Porto, Portugal, Sep 8-10, Proceedings of the SPIE, 7653, 765310, 2010
[4]Wei Hong, Dongning Wang, Dingshan Gao, Yuhua Li, Changrui Liao, Ying Wang, Shujing Liu, Xia Fang, Lina Ma. Investigation on transmission properties of a single mode fiber with a cross-sectional micro-channel using time-domain finite difference (FDTD) method. The 14th Optoelectronics and Communications Conference, Hong Kong, China, pp. ThLP51 1-2, 2009.
[5]Shujing Liu, Wei Jin, Long Jin, D. N. Wang, Changrui Liao, Ying Wang. Fabrication of long-period fiber gratings by using of a femtosecond laser source. The 14th Optoelectronics and Communications Conference, Hong Kong, China, pp. WQ6 1-2, 2009.
[6]Dongning Wang, Ying Wang, and Minwei Yang. Microhole-structured long period fiber grating. Bragg Gratings, Photosensitivity, and Poling in Glass Waveguides (BGPP), Karlsruhe, Germany, Jun 21, BMA5, 2010
[7]D. N. Wang, and Ying Wang. Miniaturized fiber in-line interferometer fabricated by femtosecond laser micromachining. 31st European Conference on Laser Interaction with Matter (ECLIM 2010), Budapest, Hungary, Sep 6-10, P36, 2010

专利技术

[1]Microhole-structured long period fiber grating
D N Wang, Ying Wang, Minwei Yang, The Hong Kong Polytechnic University.
US Patent(美国专利), Pub. No. US8160412B2, Pub. Date: 2011.4.17
[2]In-line single fiber Mach-Zehnder interferometer
D N Wang, Ying Wang, Minwei Yang. The Hong Kong Polytechnic University.
US Patent(美国专利), Pub. No. US 8478092B2, Pub. Date: 2013.7.2