Characteristics of Radiation from a Q-Switched Supersonic Flow Chemical Oxygen-Iodine Laser
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概要
- 論文の詳細を見る
The flow and optical fields of a Q-switched supersonic flow chemical oxygen-iodine laser are simulated by solving simultaneously the gas flow model coupled with the precise chemical kinetic model and the geometric optical model. The effects of hyperfine relaxation and velocity cross relaxation for iodine atoms and nonuniformity of the three-dimensional flow field on power extraction are investigated. The results show that the peak power under the influence of hyperfine relaxation and velocity cross relaxation, which is normalized by the corresponding continuous wave value, is 15. This value agrees fairly well with previously reported experimental results of Q-switched chemical oxygen-iodine laser operations. The peak power of pulse in the three-dimensional flow field is considerably small compared to that in the equivalent one-dimensional flow field and the pulse is widened roughly twice due to insufficient mixing, shock waves, expansion waves and wakes.
- 一般社団法人日本機械学会の論文
- 2000-02-15
著者
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Masuda Wataru
Faculty Of Engineering Nagaoka University Of Technology
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Hishida Manabu
Faculty Of Engineering Nagaoka University Of Technology : (present Address) Department Of Aerospace
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KOMINATO Kazuhiro
Graduate Student, Nagaoka University of Technology
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Kominato Kazuhiro
Graduate Student Nagaoka University Of Technology
関連論文
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- Effects of Water Vapor Condensation on the Performance of Supersonic Flow Chemical Oxygen-Iodine Laser
- Three-Dimensional Mixing / Reacting Zone Structure in a Supersonic Flow Chemical Oxygen-Iodine Laser
- Numerical Simulation for the Power of a Supersonic Flow CO Chemical Laser Using a Leaky Stream Tube Approach
- Numerical Simulation of a Supersonic Flow Chemical Oxygen-Iodine Laser Solving Navier-Stokes Equations
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- Aerodynamic Characteristics of Underexpanded Coaxial Impinging Jets
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- Characteristics of Radiation from a Q-Switched Supersonic Flow Chemical Oxygen-Iodine Laser
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- Investigation on the Theoretical Modeling of a Supersonic Flow CO Chemical Laser
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