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全气相化学激光体系的直流放电研究 被引量:3

DC discharge for the all gas-phase iodine laser
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摘要 为了提高化学激光体系(AGIL)中F原子的产率.采用直流放电引发方式,对棒式电极的放电特性进行了研究。在对NF3/He混合气体进行解离时,通过选择不同平衡电阻,得到了3kW左右的放电注入功率。用光谱分析仪对F原子产率进行了测量。通过拟合计算可得:一个NF3分子能够解离出1.3~L5个F原子。 A DC discharge method is introduced to improve the production of F atom for all gas-phase iodine laser(AGIL). Characteristics of the DC discharge are studied for the usage of cylinder electrode. About 3 kW input power is obtained when dissociating the mixture of NF3 in He by different balance resistance. Production of F atom is measured with spectrometer(CCD) and the production of F atom is about 1.3~1.5 with one NF3 molecule.
作者 于海军 唐书凯 汪健 闵详德 多丽萍 金玉奇
机构地区 中国科学院大连化学物理研究所
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2006年第5期746-748,共3页 High Power Laser and Particle Beams
基金 国家863计划项目资助课题
关键词 全气相化学激光(AGIL) 直流放电 F原子产率 All gas-phase iodine laser(AGIL) DC discharge Production of F atom
分类号 TN248.5 [电子电信—物理电子学]
  • 相关文献

参考文献8

  • 1Henshaw T L, Manke Ⅱ G C, Madden T J, et al. A new energy transfer chemical laser at 1. 315/am[J]. Chem Phys Lett, 2000, 325:537-544.
  • 2Manke Ⅱ G C, Cooper C B, Dass S C, et al. A multiwatt all gas-phase iodine laser( AGIL) [J]. IEEE Journal of Quantum Electronics,2003, 39:8.
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  • 4唐书凯,于海军,闵祥德,汪健,张翠兰,多丽萍,桑凤亭.NCl(a^1Δ)/I(~2P_(3/2))传能体系的实验研究[J].强激光与粒子束,2003,15(6):529-532. 被引量:2
  • 5Henshaw T L, Madden T J, Herbelin J M, et al. Mseasurement of gain on the 1. 315 μm transtion of atomic iodine as produced from the NCl(a^1△)+I(^2P3/2) energy transfer reaction[C]//Proc of SPIE. 1999, 3612:147-156.
  • 6Manke Ⅱ G C, Henshaw T L. Characterizing fluorine and chlorine atom flow rates using iodine atom speetrometry[C]//AlAA Plasmadynaics and Lasers Conference, 2002.
  • 7多丽萍,唐书凯,李健,杨柏龄,桑凤亭.微波放电解离氯分子解离效率的测量(英文)[J].强激光与粒子束,2003,15(4):335-338. 被引量:2
  • 8Herbelin J M, Henshaw T L, Rafferty B D, et al. The measurement of gain on the 1. 315 μm transition of atomic iodine in a subsonic flow of chemically generated NCl(a^1A) [J]. Chem Phys Lett, 1999, 299 : 583-588.

二级参考文献17

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  • 7Henshaw T L, MankeII G C, Madden T J, et al. A new energy transfer chemical laser at 1. 315μm[J]. Chem Phys Lett, 2000, 325:537.
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共引文献1

同被引文献19

  • 1袁大发,唐勇.美国研制的高能激光武器系统[J].激光与光电子学进展,2004,41(12):15-18. 被引量:5
  • 2王红岩,袁圣付,张鹏,朱孟真,姜宗福.电激励红外多波段化学激光器的光腔参量选择[J].中国激光,2005,32(8):1040-1044. 被引量:6
  • 3多丽萍,唐书凯,于海军,汪健,闵祥德,李留成,金玉奇,杨柏龄,桑凤亭.DC discharge characteristics and fluorine atom yield in NF_3/He[J].Chinese Optics Letters,2006,4(3):170-172. 被引量:2
  • 4姬寒珊,秦致远,赵东新.国外激光武器发展的经验与前景[J].激光与光电子学进展,2006,43(5):14-19. 被引量:20
  • 5Charles F Wisniewski, Kevin B Hewett, et al. Hydrogen fluorine overtone laser: experimental methods of characterization[ J ]. SHE ,2004,5448 :242 - 250.
  • 6T T Yang, R D Bower. I(ZP1/2) produced from the energy transfer from NCI(a) to I(^2 P3/2 ) [C]. SPIE, 1990, 1225: 430-435.
  • 7A J Yang, R D Coombe. An 1 ^+ laser pumped by NC1 (a) [J]. J. Phys. Chem., 1995, 99 (20): 7849-7852.
  • 8A M Herbelin, T L Henshaw. The measurement of gain on the measurement of gain on the 1. 315 μmtransition of atomic iodine in a subsonic flow of chem- icallygenerated NCl(a)[J]. Chem. Phys. Lett., 1999, 299:583-588.
  • 9T L Henshaw, Gerald C . A new energy transfer chemical laser at 1. 315μm[J]. Chem. Phys. Lett. , 2000, 325: 537-544.
  • 10G C Manke II, C B Cooper. A multi-watt all gas phase iodine laser[J]. IEEE J. Quantam Electron, 2003, 39(8): 995-1002.

引证文献3

二级引证文献9

强激光与粒子束
2006年 第5期

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