学历:
中国科学院理学博士,光学专业;
长春理工大学理学学士,应用光学专业。
研究方向:
航空发动机与燃气轮机激光在线测量系统开发
新型固体(光纤)激光器和放大器研究
激光应用系统开发(激光雷达、激光加工、激光显示、激光生物医疗)
主讲课程:
光电子技术
光学cad制图(研究生课)
等等
学术兼职:
美国光学学会(OSA)审稿人(Optics Letters, Applied Optics),2012-
Elsevier 审稿人(Optics Communications, Optics & Laser Technology),2004-
课题项目:
基于金刚石级联拉曼的连续波可调谐深紫外激光器关键问题研究,青年科学基金项目,2014-2016
无跳模单频可调谐陶瓷微片激光器,国际(地区)合作与交流项目,2015-2016
代表作:
[1] F.Q. Jia*, P. Liu, Kang Li, H. Chen, Y.J. Cheng, Z.P. Cai, and Nigel Copner, “Comparative Study of CVD Graphene Passively Q-switched c-cut Nd:YVO4/Nd:YAG Lasers at 1.06 μm andControlled Operation”, Optics Communications, 2016,http://dx.doi.org/10.1016/j.optcom.2016.010.017
[2]F.Q. Jia, H. Chen, P. Liu, Y.Z. Huang, Z.Q. Luo*, “Nanosecond-pulsed, Dual-wavelength Passively Q-switched c-cut Nd:YVO4 Laser Using a Few-layer Bi2Se3Saturable Absorber”, IEEE Journal of Selected Topics in Quantum Electronics, 2015, 21(1): 1601806.
[3] Y.T. Feng, J. Nilsson*, S. Jain, T. May-Smith, J. Sahu, F.Q. Jia, D. Wilson, M. Lengden, W. Johnstone, “LD-seeded thulium-doped fibre amplifier for CO2 measurements at 2 μm,” Proc. 6th EPS-QEOD Europhoton Conference, Neuchâtel, Switzerland, Aug. 24-29, 2014, paper TuP-T1-P-12.
[4] P. Wright*, D. McCormick, K. Ozanyan, M. Johnson, J. Black, E. Fisher, A. Chighine, N. Polydorides, H. McCann, Y.T. Feng, K. Khan, P. Bastock, F. Q. Jia, D. Hewak, J. Nilsson, M. Lengden, D. Wilson, I. Armstrong, T. Benoy, W. Johnstone, “Progress towards Non-Intrusive Optical Measurement of Gas Turbine Exhaust Species Distributions”, IEEE, Aerospace conference, 2015 IEEE Aerospace Conference, Montana Venue, March 7-14, 2015.
[5]B. Ji, X.S. Zheng, Z.P. Cai, H.Y. Xu, F.Q. Jia*,“Walk off compensation, multicrystal, cascaded, single pass, second harmonic generation in LBO”, Laser Physics, 2012, 22(9): 1401-1405.
[6]X.S. Zheng, B. Ji, F.Q. Jia*, Z.P. Cai, H.Y. Xu, and C.Q. Xu ,“A Compact and high efficiency diode pumped green laser based on MgO doped PPLN”,Laser Physics, 2012, 22(1): 100-105.
[7]B. Ji, X.S. Zheng, Z.P. Cai, H.Y. Xu, F.Q. Jia*, Z.P. Cai, H.Y. Xu, and C.Q. Xu, “Compact high conversion efficiency Nd:YAG/LBO green laser using unstable V cavity”, Laser Physics, 2012, 22(2): 406-410.
[8]F.Q. Jia*, “High Power Continues Wave Laser Diode Array End Pumped Nd: YAG /LBO Red Lasers Operated at 669nm and 659nm”, Laser Physics, 2010, 20(7): 1559-1563.
[9]F.Q. Jia*, “Laser diode end-pumped V: YAG passively Q-switched UV lasers at 335 nm”, Laser Physics Letters, 2009, 6(12): 850-855.
[10]F.Q. Jia*, Q. Zheng, Q.H. Xue, Y.K. Bu, and L.S. Qian, “5.3W deep-blue light generation by intra-cavity frequency doubling of Nd: GdVO4”, Applied Physics B: Laser and Optics, 2006, 83(2): 244-246.
[11]F.Q. Jia*, Q. Zheng, Q.H. Xue, Y.K. Bu, and L.S. Qian, “High power and repetition rates UV light at 355nm generated by diode-end-pumped and passively Q-switched Nd:YAG laser”, Applied Optics, 2007, 46(15):2975-2979.
[12]F.Q. Jia*, Q. Zheng, Q.H. Xue, Y.K. Bu, and L.S. Qian, “Yellow light generation by frequency doubling of a diode-pumped Nd:YAG laser”, Optics Communications, 2006, 259(1): 212-215.
[13]F.Q. Jia*, Q. Zheng, Q.H. Xue, Y.K. Bu, and L.S. Qian, “LD pumped Nd: YAG/LBO 556 nm yellow laser”, Optics and Laser Technology, 2006, 38, 569-572.
[14]F.Q. Jia*, Q. Zheng, Q.H. Xue, Y.K. Bu, and L.S. Qian, “2.41W Compact efficient CW blue light generation by intra-cavity frequency doubling of a Nd:YAG laser”, Optics and Laser Technology, 2007, 39, 1081-1083.
[15]F.Q. Jia*, Q. Zheng, Q.H. Xue,Y.K. Bu and L.S. Qian, LD pumped Nd: YAG/LBO 556 nm yellow laser.Optics and Laser Technology,2006,38: 569~572.
[16]Q.H. Xue, Q. Zheng, Y.K. Bu, F.Q. Jia, L.S. Qian, “High-power efficient diode-pumped Nd:YVO4/LBO 457nm blue laser with 4.6-W output power”,Optics Letters,2006,31(8): 1070-1072.
[17]Q.H. Xue, Y.K. Bu, F.Q. Jia, Q. Zheng, “Compact efficient 1.5W continuous wave Nd:YVO4/LBO blue laser at 457nm”, Optics Communications, 2006, 258: 67-71.
[18]F.Q. Jia*, Q.H. Xue, Q. Zheng,Y.K. Bu,and L.S. Qian,1.41 W Nd: YAG laser at 556nm end-pumped by laser diode arrays. ICO20: Lasers and Laser Technologies, Proc. SPIE Vol. 6028, pp86-91, (Dec 2005).
[19]F.Q. Jia*, Q.Zheng,Q.H. Xue, Y.K. Bu, and L.S. Qian, “laser diode pumped Cr :YAG passively q-switched 556nm yellow laser”, ActaPhotonica Sinica, China, 2005,34(10):1601-1604.
[20]F.Q. Jia*, Q.H. Xue, Q. Zheng, Y.K. Bu, and L.S. Qian,“All solid state intracavity second harmonic generation at 556nm yellow laser”, Chinese Laser,China, 2005,32(8):1017-1021.
[21] F.Q. Jia*, Q. Zheng, Q.H. Xue, Y.K. Bu, and L.S. Qian, 1.1μm Nd :YAG laser operation and its intra-cavity frequency doubling, Optoelectronic & Lasers, Chian, 2005,16(7):788-792.
[22]F.Q. Jia*, Q.H. Xue, Q. Zheng, Y.K. Bu, and L.S. Qian, “Cr:YAG passivelyq-switched operation and extra-cavity UV laser”, Laser Technology,China, 2005,29(6):629-631.
[23] F.Q. Jia*, Q.H. Xue, Q. Zheng, Y.K. Bu, C.Q. Tan and L.S. Qian, “All solid state Cr:LiSAF/LBO intracavity frquency doubling blue laser”,Journal of Laser, China, 2005,26(4).
[24]F.Q. Jia*, Y.K. Bu,Q.H. Xue, Q. Zheng , C.Q. Tan and L.S. Qian, “LD pumped intracavity sum-frequency continuous wave 589nm yellow laser”, Journal of Laser &Infrared,China, 2004,34(6):142-144.