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Semi-gas kinetics model for performance modeling of flowing chemical oxygen-iodine lasers (COIL)
引用本文:GAO Zhi,HU Limin & SHEN Yiqing Institute of Mechanics,Chinese Academy of Sciences,Beijing 100080,China. Semi-gas kinetics model for performance modeling of flowing chemical oxygen-iodine lasers (COIL)[J]. 中国科学G辑(英文版), 2004, 47(3): 338-351. DOI: 10.1360/ 03yw0165
作者姓名:GAO Zhi  HU Limin & SHEN Yiqing Institute of Mechanics  Chinese Academy of Sciences  Beijing 100080  China
作者单位:GAO Zhi,HU Limin & SHEN Yiqing Institute of Mechanics,Chinese Academy of Sciences,Beijing 100080,China
摘    要:The gas pressure in a laser cavity of flowing chemical oxygen-iodine laser (COIL)is about 133.31333 Pa[1]. In this pressure range, effects of homogeneous and inhomo-geneous broadening competing with each other on the performances of a COIL are no-ticeable. Generally, a rate equation (RE) model is adopted to the performance modeling of a supersonic COIL, such as in refs. [1—4]. This model assumes the spectral line pro-file is homogeneously broadened. Homogeneous broadening assumption sim…


Semi-gas kinetics model for performance modeling of flowing chemical oxygen-iodine lasers (COIL)
GAO Zhi,HU Limin,SHEN Yiqing. Semi-gas kinetics model for performance modeling of flowing chemical oxygen-iodine lasers (COIL)[J]. Science in China(Physics Astronomy), 2004, 47(3): 338-351. DOI: 10.1360/ 03yw0165
Authors:GAO Zhi  HU Limin  SHEN Yiqing
Affiliation:Institute of Mechanics, Chinese Academy of Sciences, Beijing 100080, China
Abstract:A semi-gas kinetics (SGK) model for performance analyses of flowing chemical oxygen-iodine laser (COIL) is presented. In this model, the oxygen-iodine reaction gas flow is treated as a continuous medium, and the effect of thermal motions of particles of different laser energy levels on the performances of the COIL is included and the velocity distribution function equations are solved by using the double-parameter perturbational method. For a premixed flow, effects of different chemical reaction systems, different gain saturation models and temperature, pressure, yield of excited oxygen, iodine concentration and frequency-shift on the performances of the COIL are computed, and the calculated output power agrees well with the experimental data. The results indicate that the power extraction of the SGK model considering 21 reactions is close to those when only the reversible pumping reaction is considered, while different gain saturation models and adjustable parameters greatly affect the output power, the optimal threshold gain range, and the length of power extraction.
Keywords:chemical oxygen-iodine laser (COIL)   semi-gas kinetics (SGK) model   rate equation (RE) model   homogeneous broadening   inhomogeneous broadening   performance analysis   spectral line broadening (SLB) model.
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