• 2010-09-01-2014-12-23
  山东大学
  Optical Engineering
• 2002-09-01-2005-06-17
  山东大学
  Optical Engineering
• 1993-09-01-1997-07-01
  山东大学
  光电技术

• 1997-07 — Now
  山东大学

(1)常军. Theoretical analysis of the impact of Rayleigh noise on the performance of distributed Raman temperature sensors .Journal of Modern Optics .2014

(2)常军. Application of Wavelet Transform Modulus Maxima in Raman Distributed Temperature Sensors .PHOTONIC SENSORS .2014

(3)常军. The demodulation methods for eliminating the impact of the Rayleigh noise in the Raman distributed temperature sensors .Optik .2015

(4)常军. Research Progress of Optical H2O Sensor With a DFB Diode Laser .PHOTONIC SENSORS .2014

(5)常军. Measurement Methods in Trace Water Vapor Concentration Detection System Based on Direct Absorption Spectroscopy .2013

(6)常军. An adaptive Rayleigh noise elimination method in Raman distributed temperature sensors using anti-Stokes signal only .OPTICAL AND QUANTUM ELECTRONICS .2013

(7)常军. Spatial Resolution Improvement of DistributedRaman Temperature Measurement System .IEEE Sensors Journal .2013 ,13 (11):4271

(8)常军. Attenuation auto-correction method in Raman distributed temperature measurement system .Opt Quant Electron .2013 ,45 :1087

(9)常军. Novel demodulation method for eliminating Rayleigh scattering in Raman distributed temperature sensors using anti-Stokes light only .2013

(10)常军. Theoretical analysis of the impact of Rayleigh noise on the performance of distributed Raman temperature sensors .Journal of Modern Optics .2014

(11)常军. Modified balanced ratio metric detection system used for high sensitive vapor detection .Optik .2015

(12)常军. Reliability analysis and comparison of demodulation methods for dual-beam wavelength-modulation spectroscopy water vapor detection .Applied Optics .2013 ,52 (18):4171

(13)常军. External optical feedback effects on stability of asymmetric DFB-FL and isolation method .Journal of Modern Optics .2014

(14)常军. Application of Wavelet Transform Modulus Maxima in Raman Distributed Temperature Sensors .PHOTONIC SENSORS .2014

(15)常军. The demodulation methods for eliminating the impact of the Rayleigh noise in the Raman distributed temperature sensors .Optik .2015

(16)常军. High-sensitive measurement of water vapor:shot-noise level performancevia a noise canceller .Applied Optics .2013

(17)常军. Wavelength Dispersion Analysis on Fiber-Optic Raman Distributed Temperature Sensor System .PHOTONIC SENSORS .2013

(18)常军. Suppression of the intensity noise in distributed feedback fiber lasers by self-injection locking .Laser Phys. Lett .2012

(19)Liu Zhaojun. Intracavity KTiOAsO4 optical parametric oscillator pumped by an actively Q-switched Nd:YAG laser .Laser Physics Letters .2012 ,22 (4):656

(20)常军. Accuracy improvement of Raman distributed temperature sensors based on eliminating Rayleigh noise impact .Optics communications .2013 ,306 :117

(21)常军. Research Progress of Optical H2O Sensor With a DFB Diode Laser .PHOTONIC SENSORS .2014

(22)常军. Measurement Methods in Trace Water Vapor Concentration Detection System Based on Direct Absorption Spectroscopy .Fourth Asia Pacific Optical Sensors Conference, .2013

(23)常军. Applications of asymmetric Distributed-feedback fiber laser in sensor array system .2013

(24)常军. An adaptive Rayleigh noise elimination method in Raman distributed temperature sensors using anti-Stokes signal only .OPTICAL AND QUANTUM ELECTRONICS .2013

(25)常军. Study of an optical fiber water vapor sensor based on a DFB diode laser: combined wavelength scanning andintensity modulation .Journal of Modern Optics .2014

(26)常军. Investigation intensity response of distributed-feedbackfiber laser to external acoustic excitation .Laser Phys. Lett .2012 ,9 (8)

(27)常军. Linewidth narrowing and polarization control of erbium-doped fiber laser by self-injection locking .Laser Physics Letters .2011 ,21 (12):2108

(28)常军. Spatial Resolution Improvement of DistributedRaman Temperature Measurement System .IEEE Sensors Journal .2013 ,13 (11):4271

(29)常军. Attenuation auto-correction method in Raman distributed temperature measurement system .Opt Quant Electron .2013 ,45 :1087

(30)常军. Novel demodulation method for eliminating Rayleigh scattering in Raman distributed temperature sensors using anti-Stokes light only .Fourth Asia Pacific Optical Sensors Conference .2013

(31)常军. Theoretical analysis of the impact of Rayleigh noise on the performance of distributed Raman temperature sensors .Journal of Modern Optics .2014

(32)常军. Modified balanced ratio metric detection system used for high sensitive vapor detection .Optik .2015

(33)常军. Reliability analysis and comparison of demodulation methods for dual-beam wavelength-modulation spectroscopy water vapor detection .Applied Optics .2013 ,52 (18):4171

(34)常军. External optical feedback effects on stability of asymmetric DFB-FL and isolation method .Journal of Modern Optics .2014

(35)常军. Application of Wavelet Transform Modulus Maxima in Raman Distributed Temperature Sensors .PHOTONIC SENSORS .2014

(36)常军. The demodulation methods for eliminating the impact of the Rayleigh noise in the Raman distributed temperature sensors .Optik .2015

(37)常军. High-sensitive measurement of water vapor:shot-noise level performancevia a noise canceller .Applied Optics .2013

(38)常军. Suppression of the intensity noise in distributed feedback fiber lasers by self-injection locking .Laser Phys. Lett .2012

(39)常军. Accuracy improvement of Raman distributed temperature sensors based on eliminating Rayleigh noise impact .Optics communications .2013 ,306 :117

(40)常军. Applications of asymmetric Distributed-feedback fiber laser in sensor array system .Fourth Asia Pacific Optical Sensors Conference, .2013

(41)常军. An adaptive Rayleigh noise elimination method in Raman distributed temperature sensors using anti-Stokes signal only .OPTICAL AND QUANTUM ELECTRONICS .2013

(42)常军. Study of an optical fiber water vapor sensor based on a DFB diode laser: combined wavelength scanning andintensity modulation .Journal of Modern Optics .2014

(43)常军. Investigation intensity response of distributed-feedbackfiber laser to external acoustic excitation .Laser Phys. Lett .2012 ,9 (8)

(44)常军. Linewidth narrowing and polarization control of erbium-doped fiber laser by self-injection locking .Laser Physics .2011 ,21 (12):2108

(45)Liu Zhaojun. Intracavity KTiOAsO4 optical parametric oscillator pumped by an actively Q-switched Nd:YAG laser .Laser Physics .2012 ,22 (4):656

(46)常军. Suppression of the intensity noise in distributed feedback fiber lasers by self-injection locking .Laser Phys. Lett .2012

(47)常军. Investigation intensity response of distributed-feedbackfiber laser to external acoustic excitation .Laser Phys. Lett .2012 ,9 (8)

(48)常军. Linewidth narrowing and polarization control of erbium-doped fiber laser by self-injection locking .Laser Physics .2011 ,21 (12):2108

(49)常军. Modified balanced ratio metric detection system used for high sensitive vapor detection .Optik .2015

(50)常军. Reliability analysis and comparison of demodulation methods for dual-beam wavelength-modulation spectroscopy water vapor detection .Applied Optics .2013 ,52 (18):4171

(51)常军. Accuracy improvement of Raman distributed temperature sensors based on eliminating Rayleigh noise impact .Optics communications .2013 ,306 :117

(52)常军. High-sensitive measurement of water vapor:shot-noise level performancevia a noise canceller .Applied Optics .2013

(53)常军. External optical feedback effects on stability of asymmetric DFB-FL and isolation method .Journal of Modern Optics .2014

(54)常军. An adaptive Rayleigh noise elimination method in Raman distributed temperature sensors using anti-Stokes signal only .OPTICAL AND QUANTUM ELECTRONICS .2013

(55)常军. Applications of asymmetric Distributed-feedback fiber laser in sensor array system .Fourth Asia Pacific Optical Sensors Conference, .2013

(56)常军. Novel demodulation method for eliminating Rayleigh scattering in Raman distributed temperature sensors using anti-Stokes light only .Fourth Asia Pacific Optical Sensors Conference .2013

(57)常军. Attenuation auto-correction method in Raman distributed temperature measurement system .Opt Quant Electron .2013 ,45 :1087

(58)常军. Application of Wavelet Transform Modulus Maxima in Raman Distributed Temperature Sensors .PHOTONIC SENSORS .2014

(59)常军. The demodulation methods for eliminating the impact of the Rayleigh noise in the Raman distributed temperature sensors .Optik .2015

(60)常军. Theoretical analysis of the impact of Rayleigh noise on the performance of distributed Raman temperature sensors .Journal of Modern Optics .2014

(61)常军. Spatial Resolution Improvement of DistributedRaman Temperature Measurement System .IEEE Sensors Journal .2013 ,13 (11):4271

(62)常军. Wavelength Dispersion Analysis on Fiber-Optic Raman Distributed Temperature Sensor System .PHOTONIC SENSORS .2013

(63)常军. Study of an optical fiber water vapor sensor based on a DFB diode laser: combined wavelength scanning andintensity modulation .Journal of Modern Optics .2014

(64)常军. Research Progress of Optical H2O Sensor With a DFB Diode Laser .PHOTONIC SENSORS .2014

(65)常军. Measurement Methods in Trace Water Vapor Concentration Detection System Based on Direct Absorption Spectroscopy .Fourth Asia Pacific Optical Sensors Conference, .2013

1. 研究生学位论文学术诚信研究, 2013-05-20-2014-12-31