压力恢复系统是氧碘化学激光器的重要组成部分。
The pressure recovery system is an important part of Chemical Oxygen-Iodine Laser(COIL).
本文对脉冲氧碘化学激光器的增益性能进行了理论估算。
The gain characteristics of a pulsed oxygen-iodine chemical laser has been studied theoretically.
利用可调谐二极管激光器为探测光源,直接测量了氧碘化学激光器的增益谱线的精细结构及其各谱线所占比例。
We firstly measured gain spectra of chemical oxygen-iodine laser by a tunable diode laser driven by a signal generator and got relative percentages of gain spectra.
报道首次利用放电引发方法实现脉冲氧碘化学激光器的研究结果。证实低能电子也能很有效地引发氧碘激光反应。
This paper demonstrates for the first time the feasibility of an electrically initiated pulsed oxygen-iodine laser which can be initiated efficiently by low energy electrons.
介绍了利用自发喇曼散射光谱测量氧碘化学激光器单态氧发生器氯气利用率的原理及实验装置,并给出了在以氮气作为稀释气的0。
The principle and experimental setup that can measure the chlorine utilization in singlet oxygen generator (SOG) for COIL have been introduced, and the results from the tests that contacted on a 0.
利用可调谐二极管激光器做探测光源,测量了超音速氧碘化学激光的增益谱线和增益线型。根据多普勒展宽,间接得到了超音速氧碘激光器的腔内温度。
A tunable diode laser was used to probe the gain spectra and profile of a supersonic COIL. The cavity temperature was obtained based on Doppler broadening.
利用可调谐二极管激光器做探测光源,测量了超音速氧碘化学激光的增益谱线和增益线型。根据多普勒展宽,间接得到了超音速氧碘激光器的腔内温度。
A tunable diode laser was used to probe the gain spectra and profile of a supersonic COIL. The cavity temperature was obtained based on Doppler broadening.
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