Feb. 2011

Article Contents

Chinese Optics> 2011> 4(1): 31-40.

BELEVTSEV A A, FIRSOV K N, KAZANTSEV S Yu, KONONOV I G, ZHANG Lai-ming. Electron detachment instability and self-organization of gas discharge plasma in working mixtures of chemical non-chain HF(DF) lasers[J]. Chinese Optics, 2011, 4(1): 31-40.

Citation:

PDF( 824 KB)

Electron detachment instability and self-organization of gas discharge plasma in working mixtures of chemical non-chain HF(DF) lasers

1.
Joint Institute for High Temperatures,Institute for High Energy Densities, Russian Academy of Sciences,Moscow 125412,Russia;
2.
Prokhorov General Physics Institute,Russian Academy of Sciences,Moscow 119991,Russia;
3.
State Key Laboratory of Laser Interaction with Mater,Changchun Institute of Optics, Fine Mechanics and Physics,Chinese Academy of Sciences,Changchun 130033,China

Funds:

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

Received Date:13 Aug 2010
Rev Recd Date:15 Oct 2010
Publish Date:25 Feb 2011

Abstract

Abstract

This paper reports on investigating the ionization instability in active media of electric discharge non-chain HF(DF) lasers due to electron impact detachment of electrons from negative ions. This instability has been triggered in large volumes of SF6-based mixtures, spatially separated from electrodes, through the gas heating by a pulsed CO2 laser radiation. A self-organization phenomenon in a Self-sustained Volume Discharge(SSVD) on a laser-induced gas heating and resulting in formation of quasi-periodic plasma structures in the bulk of discharge gap is experimentally studied. Special attention is given to the evolution of these structures on changing the gas temperature and specific electric energy depositions. A plausible relation of the found self-organization effect to the electron detachment instability treated is discussed. Also suggested is the mechanism of moving a single plasma channel in working media of HF(DF) lasers owing to destruction of negative ions by electron impact.
- HF(DF) laser,
- electron detachment instability,
- self-organization phenomenon,
- self-sustained volume discharge,
- plasma structure

FullText(HTML)

References (1)

References

[1] BELEVTSEV A A,FIRSOV K N. Encyclopedia of Low-Temperature Plasma[M]. Moscow:Fizmatlit,2005,XI-4:761. [2] HAAS R A. Plasma stability of electric discharges in molecular gases[J] . Phys. Rev. A,1973,8:1017. [3] NIGHAN W L,WIEGAND W J. Influence of negative-ion processes on steady-state properties and striations in molecular gas discharges[J] . Phys. Rev. A,1974,10:922. [4] NIGHAN W L. Principles of Laser Plasmas[M]. New York:Wiley,1976. [5] NAPARTOVICH A P,STAROSTIN A N. Chemistry of Plasma[M]. Moscow:Atomizdat,1979,6:153. [6] COUTTS J. The halogen donor depletion instability-current pulse-shape effects[J]. Phys. D:Appl.Phys.,1988,21:255. [7] OSBORNE M R,HUTCHINSON M R. Long pulse operation and premature termination of a high-power discharge-pumped XeCl laser[J]. Appl. Phys.,1986,59:711. [8] OSBORNE M R. Rare-gas-halide discharge stability[J]. Appl. Phys.,1988,B45:285. [9] GARSCADEN A,KUSHNER M J. IEEE Trans. Plasma Sci.,1991,19:1015. [10] BYCHKOV Y,GORTCHAKOV S,LACOUR B, et al.. Two-step ionization in non-equilibrium SF ₆discharges at high current density[J]. Phys. D:Appl. Phys.,2003,36:380. [11] BELEVTSEV A A,FIRSOV K N,KAZANTSEV S Y, et al.. Electron detachment instability and self-organization in strongly electronegative polyatomic gases[J]. Phys.D: Appl. Phys.,2009,42:215205. [12] ELETSKII A V. Chemistry of Plasma[M]. Moscow:Atomizdat,1982,9:151. [13] BELEVTSEV A A,FIRSOV K N,KAZANTSEV S Y, et al.. Self-sustained volume discharge in SF ₆-based gas mixtures upon the development of shock-wave perturbations of the medium initiated by a pulsed CO ₂laser[J] . Quantum Elecron.,2006,36:646. [14] VELIKHOV E P,KOVALEV A S,RAKHIMOV A T. Physical Phenomena in Gas Discharge Plasma[M]. Moscow: Nauka,1987. [15] KOROLEV Y D,MESYATS G A. Physics of Pulsed Breakdown in Gases[M]. Moscow:Nauka,1991. [16] BELEVTSEV A A,FIRSOV K N,KAZANTSEV S Y, et al.. The critical reduced electric fields in SF ₆at high gas temperatures[J]. Phys. D: Appl. Phys.,2008,41:045201. [17] BELEVTSEV A A,FIRSOV K N,KAZANTSEV S Y, et al.. A self-sustained volume discharge in vibrationally excited strongly electronegative gases[J]. Phys. D:Appl. Phys.,2004,37:1759. [18] BELEVTSEV A A,FIRSOV K N,KAZANTSEV S Y, et al.. The influence of vibrational excitation on the burning voltage of a pulsed electric discharge in HF laser working media[J]. Appl. Phys. B,2006,82:455. [19] APOLLONOV V V,BELEVTSEV A A,KAZANTSEV S Y, et al.. Self-initiated volume discharge in nonchain HF lasers based on SF ₆-hydrocarbon mixtures[J]. Quantum Electronics.,2000,30(3):207-214. [20] APOLLONOV V V,BELEVTSEV A A,KAZANTSEV S Y, et al.. Development of a self-initiated volume discharge in nonchain HF lasers[J]. Quantum Electron.,2002,32:95. [21] APOLLONOV V V,BELEVTSEV A A,KAZANTSEV S Y, et al.. Ion-ion recombination in SF ₆and in SF ₆-C ₂H ₆mixtures for high values of E/N[J]. Quantum Electron.,2001,31(7):629-633. [22] BELEVTSEV A A,BIBERMAN L M. About one non-linear effect on development of avalanches in electronegative gases[J]. Izv. Akad. Nauk SSSR,Ser. Energetikai Transport,1976,3:74-78. [23] APOLLONOV V V,BELEVTSEV A A,FIRSOV K N, et al.. Current density restriction in diffuse channel of a self-initiated volume discharge in SF ₆and SF ₆-C ₂H ₆mixtures[C]//Proceeding of XXV International Conference on Phenomena in Ionized Gases,ICPIG-2001,Nagoya,Japan,17-22 July,2001. [24] GORDON E B,MATYUSHENKO V I,REPIN P B, et al.. Energy cost of formation of fluorine atoms in a pulsed electric discharge[J]. Khim. Fiz.,2000,8:1212.(in Russian) [25] CHRISTOPHOROU L G,OLTHOFF J K. Electron interactions with SF ₆[J]. Phys. Chem. Ref. Data,2000,29:267. [26] NAKANO N,SHIMURA N,PETROVIC Z L, et al.. Simulations of rf glow discharges in SF ₆by the relaxation continuum model:physical structure and function of the narrow-gap reactive-ion etcher[J]. Phys. Rev. D,1994,49:4455-4465. [27] SLOVETSKI D I,DERYUGIN A A. EDF and the interaction of electrons with polyatomic fluorine-containing gases[J]. Chem. Plasma,1987,13:240-277. [28] VOLKOV A F,KOGAN SH M. Physical phenomena in semiconductors with negative differential conductivity[J]. Sov. Phys. Usp.,1969,11:881-903. [29] SCHOLL E. Nonequilibrium Phase Transitions in Semiconductors. Self-Organization Induced by Generation and Recombination Processes[M]. Berlin:Springer Verlag,1987.

Relative Articles

Supplements (0)

Cited By

Proportional views