[1] [1] BELL W E. Ring discharge excitation of gas ion lasers ［J］. Appl. Phys. Lett., 1965,7(7):190-191.

[2] [2] GOLDBOROUGH J P,HODGES E B,BELL W E. RF induction of CW visible laser transition in ionized gases ［J］. Appl. Phys. Lett., 1966,8(6):137-139.

[3] [3] KISELEVSKII L I, SKUTOV D K,SOKOLOV S A. Primenenie visokochastotnogo indukzionnogo razrjada dla poluchenija lasernoi generazii v neprerivnom regime ［J］. Zh. Prikl. Spektroskopiya, 1974,21(5):951-955. (in Russian)

[4] [4] RAZHEV A M, MKHITARYAN V M,CHURKIN D S. 703 to 731 nm FI laser excited by a transverse inductive discharge ［J］. JETP Lett., 2005,82(5):259-262.

[5] [5] RAZHEV A M, CHURKIN D S,ZAVYALOV A S. Pulsed inductive discharge molecular hydrogen laser ［J］. Vestnik NSU, Seria Fizika, 2009,4(3):12–19. (in Russian)

[6] [6] RAZHEV A M,CHURKIN D S. Pulsed inductive discharge CO2 laser ［J］. Opt. Commun., 2009,282(7):1354-1357.

[7] [7] RAZHEV A M,CHURKIN D S. Inductive ultraviolet nitrogen laser ［J］. JETP Lett., 2007,86(6):420-423.

[8] [8] RAZHEV A M,CHURKIN D S,ZHUPIKOV A A. Study of the UV emission of an inductive nitrogen laser ［J］. Quantum Electronics, 2009,39(10):901-905.

[9] [9] KOVACS M A, ULTEE C J. Visible laser action in fluorine I ［J］. Appl. Phys. Lett., 1970,17(1):39-40.

[10] [10] JEFFERS W Q,WISWALL C E. Laser action in atomic based on collisional dissociation of HF ［J］. Appl. Phys. Lett., 1970,17(10):444-447.

[11] [11] FLORIN A E,JENSEN R J. Pulsed laser oscillation at 0.7311 Μ from F atoms ［J］. IEEE J. Quantum Electronics, 1971,7(3):472.

[12] [12] ENGLISH J R, III, GARDNER H C, MERRITT J A. Pulsed stimulated emission from N, C, Cl, and F atoms ［J］. IEEE J. Quantum Electron., 1972,8(11):843-844.

[13] [13] SUTTON D G, GALVAN L, VALENZUELA P R, et al.. Atomic laser action in rare gas-SF6 mixtures ［J］. IEEE J. Quantum Electron., 1975,11(1):54-57.

[14] [14] BIGIO I J,BEGLEY R F. High-power visible laser action in neutral atomic fluorine ［J］. Appl. Phys. Lett., 1976,28(5):263-264.

[15] [15] HOCKER L O,PHI T B. Pressure dependence of the atomic fluorine laser transition intensities ［J］. Appl. Phys. Lett., 1976,29(8):493-494.

[16] [16] LOREE T R,SZE R C. The atomic fluorine laser: spectral pressure dependence ［J］. Optics Communications, 1977,21(2):255-257.

[17] [17] LISITSIN V N,RAZHEV A M. Powerful laser high-pressure on red lines of fluorine ［J］. JTPh Letters 1977,3(17):862-864. (in Russian)

[18] [18] HOCKER L O. High-resolution study of the helium-fluorine laser ［J］. J. Opt. Soc. Am., 1978,68(2):262-265.

[19] [19] SUMIDA S, OBARA M,FUJIOKA T. Novel neutral atomic lines in a high-pressure mixture of F2 and He ［J］. J. Appl. Phys., 1979,50(6):3884-3887.

[20] [20] LAWLER J E, PARKER J W,ANDERSON L W,et al.. Experimental investigation of the atomic fluorine laser ［J］. IEEE J. Quantum. Electron., 1979, QE-15(7):609-613.

[21] [21] KOPRINKOV I G, STAMENOV K V, STANKOV K A. Intense laser generation from an atomic-fluorine laser ［J］. Appl. Phys. B,1984,33(1):235-238.

[22] [22] SERAFETINIDES A A, RICKWOOD K R. Efficient multi and single line atomic fluorine lasers ［J］. Appl. Phys. B, 1987,44(1):119-123.

[23] [23] ZAEFERANI M S, PARVIN P, SADIGHI R. Pressure dependence of the spectral lines of a high power, high pressure atomic fluorine laser pumped by a charge transfer from He+2 ［J］. Optics and Laser Technology, 1996,28(3):203-205.

[24] [24] PARVIN P, MEHRAVARAN H, JALEH B. Spectral lines of the atomic-fluorine laser from 2psi (absolute) to 5.5 atm ［J］. Applied Optics, 2001,40(21):3532-3538.

[25] [25] PARVIN P, MEHRAVARAN H, DORRANIAN D. Changeover in the molecular and atomic fluorine laser transitions ［J］. Applied Optics, 2010,49(15):2741-2748.

[26] [26] SVELTO O. Principles of Lasers ［M］. Tamburini editore, Milan, Italy, 1972, Plenum Publishing Co., USA, 1976.

[27] [27] WITTEMAN W J. The CO2 Laser ［M］. Springer-Verlag, Berlin Heidelberg, 1987:360.

[28] [28] GERRY E T. Pulsed-molecular –nitrogen laser theory ［J］. Appl. Phys. Lett., 1965,7(1):6-8.

[29] [29] ALI A W. A study of the nitrogen laser power density and some design considerations ［J］. Appl. Opt., 1969,8(5):993-996.

[30] [30] ALI A W, KOLB A C,ANDERSON A D. Theory of the pulsed molecular Nitrogen laser ［J］. Appl. Opt., 1967,6(12):2115-2119.

[31] [31] LEONARD D A. Saturation of the molecular nitrogen second positive laser transition ［J］. Appl. Phys. Lett., 1965,7(1):4-6.

[32] [32] JEUNEHOMME M, DUNCAN A B F. Lifetime measurements of some excited states of nitrogen, nitric oxide, and formaldehyde ［J］. J. Chem. Phys., 1964,41(6):1692-1699.

[33] [33] BAZHULIN P A, KNYAZEV I N, PETRASH G G. Stimulated radiation from hydrogen and deuterium molecules in the near infrared region ［J］. JETP, 1965,49(1):16-23.

[34] [34] BOCKASTEN K, LUNDHOLM T, ANDRADE O. Laser lines in atomic and molecular hydrogen ［J］. J. Opt. Soc. Am.,1966,56(9):1260-1261.

[35] [35] HEARD H G. High power ultraviolet gas laser ［J］. Bull. Amer. Phys. Soc., 1964,9:65.

[36] [36] SHIPMAN J. Traveling wave excitation of high power gas lasers ［J］. Appl. Phys. Lett., 1967,10(1):3-4.

[37] [37] WANG C P. Simple fast-discharge device for high-power pulsed lasers ［J］. Rev. Sci. Instrum., 1976,47(1):92-95.

[38] [38] CARTWRITE D C. Total Cross Sections for the Excitation of the Triplet States in Molecular Nitrogen ［J］. Phys. Rev., 1970,2(4):1331-1348.

[39] [39] KASLIN V M, PETRASH G G. Rotational structure of the ultraviolet generation of the molecular nitrogen ［J］. JETP Letters, 1966,3(2):88-92.