基于有源谐振腔的喇曼气体分析系统设计
[2] ZHU H D, LUO Q, ZHOU L, et al. Application prospect of natural gas component analysis using laser Raman spectroscopy [J].Natural Gas Industry, 2013(11):110-114(in Chinese).
[3] YANG X G, WU Q L. The analysis and application of Raman spectroscopy [M].Beijing: National Defend Industry Press,2008:2-3(in Chinese).
[5] LI X Y, XIA Y X, ZHAN L, et al. Near-confocal cavity-enhanced Raman spectroscopy for multitrace-gas detection [J]. Optics Letters, 2008, 33(18):2143-2145.
[6] YANG D W. Raman signal enhancement for gas detection using a near concentric cavity [D].Qingdao:Ocean University of China, 2013:21-44 (in Chinese).
[7] ZHOU S W. The analysis of operating principle of laser oscillator [J]. Natural Sciences Journal of Harbin Normal University, 2012, 28(5): 52-54 (in Chinese).
[8] XIA J, SHI Q, XU Sh J. The principle and applied prospect of gas measuring with laser Raman spectra [J]. Mud Logging Engineering,2013(2):1-7(in Chinese).
[9] CHENG J B, PENG R L. The principle and application of laser[M].2nd ed. Beijing: Publishing House of Electronics Industry, 2008:107-109 (in Chinese).
[10] HERCHER M, MUELLER W, KLAINER S, et al. An efficient intra cavity laser Raman spectrometer [J].Applied Spectroscopy, 1978, 32(3): 298-302.
[11] PENG X,ZHAI S,SONG S, et al. Design of DC bias voltage source of single—photon detector based on MAX5026[J].Modern Electronic Technique,2007,30(8):175-177(in Chinese).
严永鹏, 高秀敏, 张雷洪, 张大伟. 基于有源谐振腔的喇曼气体分析系统设计[J]. 激光技术, 2017, 41(1): 65. YAN Yongpeng, GAO Xiumin, ZHANG Leihong, ZHANG Dawei. Design of Raman gas analysis system based on active resonant cavity[J]. Laser Technology, 2017, 41(1): 65.