高功率重频电化学HF 器 -

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高功率重频电化学HF 器

1.
国家科学研究中心实验室, 俄罗斯, 弗拉基米尔地区;
2.
俄罗斯科学院普罗霍罗夫普通物理研究所, 莫斯科 119991

基金项目:

Supported by Russian Foundation for Basic Research Project(Grants No.09-02-00475, No.08-08-00242).

详细信息

中图分类号:TN248.5
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- 被引次数:0
出版历程
- 收稿日期:2010-08-21
- 修回日期:2010-10-15
- 刊出日期:2011-02-25

High power pulse-periodical electrochemical HF laser

1.
Federal State Unitary Enterprise Kosminov State Scientific Research Test Laser Center(Range) of the Russian Federation 《RADUGA》,Raduzhnyi,Vladimir Region,Russia;
2.
Prokhorov General Physics Institute,Russian Academy of Science,Moscow 119991,Russia

Funds:

Supported by Russian Foundation for Basic Research Project(Grants No.09-02-00475, No.08-08-00242).

摘要

摘要:研制了高功率、高重频非链式HF 器,并研究了脉冲模式和重频模式下在SF6的混合气中增加电极边缘电场强度而不使用其它措施即可实现自持体引发放电的可能性,得到了重复频率为20 Hz,脉冲能量为67 J,转换效率为3%的输出。
- 化学器/
- 非链式脉冲HF 器/
- 自引发体放电/
- SF6混合气体
Abstract:The high power nonchain repetitively pulsed HF laser is developed and the possibility of realizing the self-sustained volume discharge in SF6-based mixtures in the discharge gap with a high edge enhancement of the electric field without any additional stabilization measures in a pulsed discharge as well as in pulse-periodic modes is investigated. The obtained laser energy is 67 J at the efficiency in 3% and pulse repetition rate in 20 Hz.
- chemical laser/
- non-chain pulsed HF laser/
- self-sustained volume discharge/
- SF6-based mixture

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参考文献 (1)

[1] VELIKANOV S D,ELUTIN A S,KUDRYASHOV E A,et al. Use of a DF laser in the analysis of atmospheric hydrocarbons[J].Quantum Electron,1997,27(3),273-276. [2] AGROSKIN V Y,BRAVY B G,CHERNYSHEV Y A,et al.. Aerosol sounding with a lidar system based on a DF laser[J].Appl. Phys. B,2005,81:1149. [3] ANDREEV S N,FIRSOV K N,KAZANTSEV S Y,et al.. Explosive boiling of water induced by the pulsed HF-laser radiation[J].Laser Phys.,2007,17(6):834. [4] ANDREEV S N,KAZANTSEV S Y,KONONOV I G,et al.. Temporal structure of an electric signal produced upon interaction of radiation from a HF laser with the bottom surface of a water column[J].Quantum Electron,2009,39(2):179-184. [5] BURTSEV A P,BURTSEVA I G,MASHENDZHINOV V I,et al.. New HBr-laser with resonant optical pumping by DF-laser radiation[J].SPIE,2004,5479:174-176. [6] ALEXANDROV B S,ARSENJEV A V,AZAROV M A,et al.. Increase of efficiency of optical pumping of a broadband CO₂laser amplifier as a result of the use of a multicomponent active medium[J].SPIE,2003,5120:551-556. [7] AZAROV M A,ALEXANDROV B S,ARSENJEV A V,et al.. High pressure with optical pumping by HF laser radiation[J].SPIE,2007,6346:63462B. [8] VASILIEV G K,MAKAROV E F,CHERNYSHEV Y A. Optical pumping of the N₂O-He and N₂O-CO₂—He mixtures by a pulsed multifrequency HF laser for producing active media to amplify 10-μm high-power ultrashort pulses[J].Quantum Electron,2005,35(11):987-992. [9] SKRIBANOWITZ N,HERMANN I P,MACGILLIVRAY M S,et al.. Observation of dicke superadiance in optically pumped HF gas[J].Phys. Rev. Lett.,1973,30:309-312. [10] APOLLONOV V V,BELEVTSEV A A,KAZANTSEV S Y,et.al.. Self-initiated volume discharge in nonchain HF lasers based on SF₆-hydrocarbon mixtures[J].Quantum Electron,2000,30(3):207-214. [11] BULAEV V D,KULIKOV V V,PETIN V N,et al.. Experimental study of a nonchain HF laser on heavy hydrocarbons[J] .Quantum Electron,2001,31(3):218-220. [12] GORNOSTAY-POLSKY S A,GRISHIN A V,BALYABIN M G,et al.. High-current gas-filled spark-gap:RU, 2241288[P]. 2004-11-27. [13] APOLLONOV V V,KAZANTSEV S Yu,ORESHKIN V F,et al.. Feasibility of increasing the output energy of a nonchain HF(DF) laser[J].Quantum Electron,1997,27(3):207-209. [14] ANDRAMANOV A V,KABAEV S A,LAZHINTSEV B V,et al.. Formation of the beam profile in a plate electrode HF laser[J].Quantum Electron,2005,35(4):359-364. [15] BELEVTSEV A A,FIRSOV K N. The encyclopedia of law-temperature plasma[M]. Moscow:Physmatlit,2005,XI-4:761.

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