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Simulation of NPL in experiments with e-beam pumping

Published online by Cambridge University Press:  15 October 2009

A.V. Fedenev  and
V.F. Tarasenko
A.V. Fedenev
Affiliation:
Fusion Studies Laboratory, University of Illinois, 100 Nuclear Engineering Laboratory, 103 South Goodwin Avenue, Urbana, IL 61801, USA
V.F. Tarasenko
Affiliation:
High Current Electronics Institute, 4 Academicheskii Avenue, Tomsk, 634055, Russia
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Extract

The main goals of this review article are to show, on the basis of the results accumulated in this field, achievements in simulating the processes in nuclear pumped laser (NPL) active media by experiments on e-beam pumping, and to give a number of characteristic experimental examples, when this simulation has improved understanding of the inversion population processes in NPL active media (Cd+, Xe-lasers) or generated interest in experiments with fission fragments excitation (Ne-laser). In the case of the population of laser operation levels in non-equilibrium recombinating plasma, one can say with sufficient accuracy that the inversion population mechanism is identical for both excitation types.

Type
Research Article
Information
Laser and Particle Beams , Volume 16 , Issue 2 , June 1998 , pp. 327 - 380
Copyright
Copyright © Cambridge University Press 1998

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References

REFERENCES

Abdullin, E.N.et al. 1993 Sov. J. Quant. Electron. 20, 652.Google Scholar
Andreev, A.D.et al. 1992 Sov. J. Tech. Phys. 62, 18.Google Scholar
Aleksandrov, A.Yu.et al. 1985 Doklady AN USSR 284, 851.Google Scholar
Aleksandrov, A.Yu.et al. 1987 Sov. J. Quant. Electron. 14, 2389.Google Scholar
Aleksandrov, A.Yu.et al. 1988 Sov. J. Quant. Electron. 15, 1541.Google Scholar
Aleksandrov, A.Yu.et al. 1989 Izvestiya AN USSR, sen Fiz. 53, 1474.Google Scholar
Aleksandrov, A.Yu.et al. 1991a Sov. J. Quant. Electron. 18, 1029.Google Scholar
Aleksandrov, A.Yu.et al. 1991b Sov. J. Quant. Electron. 18, 673.Google Scholar
Alford, W.J. & Hays, G.N. 1989 J. Appl. Phys. 65, 3760.CrossRefGoogle Scholar
Alford, W.J.et al. 1990 IEEE J. Quant. Electron. QE-26, 1633.Google Scholar
Alford, W.J.et al. 1991 J. Appl. Phys. 69, 1843.Google Scholar
Baranov, V.Yu.et al. 1983 Sov. Tech. Phys. Lett. 9, 1124.Google Scholar
Barysheva, N.M.et al. 1992 In Proc. NPL-92, Obninsk, 47.Google Scholar
Barysheva, N.M.et al. 1996 Sov. Tech. Phys. Lett. 22 (15), 83.Google Scholar
Basov, N.G.et al. 1982 Sov. Tech. Phys. Lett. 8, 590.Google Scholar
Basov, N.G.et al. 1984 Sov. J. Quant. Electron. 11, 1722.Google Scholar
Basov, N.G.et al. 1985a IEEE J. Quant. Electron. QE-21, 1757.Google Scholar
Basov, N.G.et al. 1985b Sov. Tech. Phys. Lett. 41, 156.Google Scholar
Basov, N.G.et al. 1985c Sov. J. Quant. Electron. 12, 228.Google Scholar
Basov, N.G.et al. 1985d Sov. J. Quant. Electron. 12, 1521.Google Scholar
Basov, N.G.et al. 1986 Sov. J. Quant. Electron. 13, 1544.Google Scholar
Basov, N.G.et al. 1987 Sov. J. Quant. Electron. 11, 1722.Google Scholar
Batyrbekov, G.A.et al. 1990 Sov. J. Quant. Electron. 17, 1175.Google Scholar
Batyrbekov, G.A.et al. 1992 In Proc. NPL-92, Obninsk, 348.Google Scholar
Biondi, M.A. 1986 In Gas Lasers, Vol. 3, E.W., McDaniel & W.L., Nighan eds., (Academic Press, NY), p. 75.Google Scholar
Boichenko, A.M.et al. 1993 Laser Part. Beams 11, 655.CrossRefGoogle Scholar
Branon, P.J.et al. 1990 Sandia Nat. Labs Rep. SAND 90–0202.Google Scholar
Bridges, W.B.et al. 1965 Appl. Opt. 4, 573.CrossRefGoogle Scholar
Budnik, A.P. & Dobrovol'skaya, I.V. 1994 In Proc. NPL-94, Arzamas-16, 56.Google Scholar
Budnik, A.P. & Dobrovol'skaya, I.V. 1997 Kvantovaya Elektronika 24, 117 (in Russian).Google Scholar
Bugaev, S.P.et al. 1988 Sov. J. Opt. Spectrosc. 65, 744.Google Scholar
Bugaev, A.S.et al. 1990 Sov. J. Quant. Electron. 17, 17.Google Scholar
Bugaev, A.S.et al. 1992 Sov. J. Quant. Electron. 22, 988.Google Scholar
Bugaev, A.S.et al. 1994 Laser Part. Beams 12, 633.Google Scholar
Bunkin, F.V.et al. 1985a Sov. J. Quant. Electron. 12, 245.Google Scholar
Bunkin, F.V.et al. 1985b Sov. J. Quant. Electron. 12, 874.Google Scholar
Bunkin, F.V.et al. 1985c Sov. J. Quant. Electron. 12, 1993.Google Scholar
Bunkin, F.V.et al. 1986a Izvestiya AN USSR 50, 1064.Google Scholar
Bunkin, F.V.et al. 1986b Sov. J. Quant. Electron. 13, 878.Google Scholar
Bunkin, F.V.et al. 1986c Sov. J. Quant. Electron. 13, 2531.Google Scholar
Bunkin, F.V.et al. 1987 Radiotech, i Electron. 32, 1672 (in Russian).Google Scholar
Bychkov, Yu.I.et al. 1982 Sov. Tech. Phys. Lett. 8, 837.Google Scholar
Deese, S.E. & Hassan, H.A. 1989 AIAA J. 16, 1030.CrossRefGoogle Scholar
Derzhiev, V.I.et al. 1987a Preprint of IOFAN 281, 33 (in Russian).Google Scholar
Derzhiev, V.I.et al. 1987b Preprint of IOFAN 52, 29 (in Russian).Google Scholar
Derzhiev, V.I.et al. 1987c Preprint of IOFAN 233, M, 51 (in Russian).Google Scholar
Derzhiev, V.I.et al. 1987d Sov. J. Quant. Electron. 14, 427.Google Scholar
Derzhiev, V.I.et al. 1988a Sov. Tech. Phys. Lett. 12, 18.Google Scholar
Derzhiev, V.I.et al. 1988b Sov. J. Quant. Electron. 15, 108.Google Scholar
Derzhiev, V.I.et al. 1989a Kratkie soobshchenija po fizike, FIAN, 4, 34 (in Russian).Google Scholar
Derzhiev, V.I.et al. 1989b Sov. J. Quant. Electron. 16, 1579.Google Scholar
Derzhiev, V.I.et al. 1990 Appl. Phys. Lett. 51, 465.Google Scholar
Derzhiev, V.I.et al. 1990b Sov. J. Quant. Electron. 17, 985.Google Scholar
De Yang, R.S.et al. 1980 Appl. Phys. Lett. 37, 679.Google Scholar
Dorofeev, Yu.B.et al. 1993 Preprint FEI 2311, Obninsk, 48.Google Scholar
Dudin, A.Yu. & Kholin, N.N. 1988 Preprint FIAN, 1193, M (in Russian).Google Scholar
Dudin, A.Yu.et al. 1986 Sov. J. Quant. Electron. 13, 488.Google Scholar
Dudin, A.Yu.et al. 1991a Sov. J. Quant. Electron. 18, 1292.Google Scholar
Dudin, A.Yu.et al 1991b Sov. J. Quant. Electron. 18, 921.Google Scholar
Dyachenko, P.P. & Zrodnikov, A.V. 1992 Proc. Specialist Conf. Phys. of Nuclear Induced Plasmas, Obninsk, Russia, 13.Google Scholar
Fedenev, A.V. & Tarasenko, V.F. 1993 Atmos. Ocean. Optics 6, 679.Google Scholar
Fedenev, A.V. & Tarasenko, V.F. 1994 J. Russian Laser Res. 15, 54.Google Scholar
Garusov, K.A.et al. 1992 Instru. Experimen. Tech. 35, 519.Google Scholar
Gorjunov, F.G.et al. 1989 Sov. J. Quant. Electron. 16, 2039.Google Scholar
Gudzenko, L.I. & YAKOVLENKO, S.I. 1978 Plasma Lasers (Atomizdat, Moscow) (in Russian).Google Scholar
Helnick, H.H.et al. 1975 Appi. Phys. Lett. 26, 327.Google Scholar
Hebner, G.A. & Hays, G.N. 1990 Appi. Phys. Lett. 57, 2175.Google Scholar
Karelin, A.V. & Yakovlenko, S.I. 1993 Sov. J. Quant. Electron. 23, 545.Google Scholar
Karelin, A.V.et al. 1990 Pis'ma v Zh. Tech. Phys. 16, 52 (in Russian).Google Scholar
Karelin, A.V.et al. 1995 Laser Part. Beams 13, 111.Google Scholar
Karelin, A.V.et al. 1996 Sov. J. Quant. Electron. 26, 291.Google Scholar
Karelin, A.V.et al. 1997 Kvantovaya Electron. 24, 387 (in Russian).Google Scholar
Klopovskii, K.S.et al. 1989 Sov. J. Quant. Electron. 16, 205.Google Scholar
Kolokolov, N.B.et al. 1989 Optika i Spektroskopiya 67, 766 (in Russian).Google Scholar
Koval', N.N.et al. 1986 Pis'ma v Zh. Tech. Phys. 12, 37 (in Russian).Google Scholar
Koval', N.N.et al. 1992 J. Nucl. Instrum. Meth. Phys. Research. Section A: Accelerators 321, 417.Google Scholar
Koval'chuk, B.M.et al. 1996 Kvantovaya Elektron. 23, 504 (in Russian).Google Scholar
Kopai-Gora, A.P.et al. 1990 Pis'ma v Zh. Tech. Phys. 16, 23 (in Russian).Google Scholar
Kopai-Gora, A.P.et al. 1989 Optika i Spektroskopiya 67, 526 (in Russian).Google Scholar
Kushner, M.J. 1985 Los-Alamos, Report LA-UR-89–2255,11. Progress Science.Google Scholar
Kushner, M.J. 1989 J. Appl. Phys. 66, 2297.Google Scholar
Kuznetsov, D.L.et al. 1991a Pis'ma v Zh. Tech. Phys. 17, 130 (in Russian).Google Scholar
Kuznetsov, D.L.et al. 1991b Pis'ma v Zh. Tech. Phys. 17, 35 (in Russian).Google Scholar
Lewton, S.A.et al. 1979 J. Appl. Phys. 50, 3888.Google Scholar
Lisitsin, V.N. & Sorokin, A.R 1981 Sov. J. Quant. Electron. 8, 2425.Google Scholar
Litzenberg, L.M.et al. 1990 IEEE J. Quant. Electron. QE-26, 1668.Google Scholar
Lomaev, M.I.et al. 1992 Pis'ma v Zh. Tech. Phys. 18, 63 (in Russian).Google Scholar
Losev, V.F. & Tarasenko, V.F. 1980 Sov. J. Quant. Electron. 7, 663.Google Scholar
Magda, E.P. 1992 In Proc. NPL-92, Obninsk, 1, 65.Google Scholar
Makeev, V.A.et al. 1993 Pis'ma v Zh. Tech. Phys. 19, 10 (in Russian).Google Scholar
Mel'nikov, S.P. & Porkhaev, V.V. 1995a Kvantovaya Elektron. 22, 891 (in Russian).Google Scholar
Mel'nikov, S.P. & Porkhaev, V.V. 1995b Pis'ma v Zh. Tech. Phys. 21, 86 (in Russian).Google Scholar
Mel'nikov, S.P. & Porkhaev, V.V. 1996 Pis'ma v Zh. Tech. Phys. 21, 52 (in Russian).Google Scholar
Mis'kevich, A.I. 1991 Laser Phys. 1, 445.Google Scholar
Mis'kevich, A.I.et al. 1982 Pis'ma v Zh. Tech. Phys. 27, 260 (in Russian).Google Scholar
Moratz, T.J.et al. 1988 J. Appl. Phys. 64, 3799.Google Scholar
Nagorny, D.Yu.et al. 1990 Pribory i Tekhnika Eksperimenta 3, 169 (in Russian).Google Scholar
Newman, L.A. & Detimple, T.A. 1975 Appl. Phys. Lett. 27, 678.Google Scholar
Novoselov, Yu.N. & Uvarin, V.V. 1995a Pis'ma v Zh. Tech. Phys. 21, 15 (in Russian).Google Scholar
Novoselov, Yu.N. & Uvarin, V.V. 1995b Zh. Tech. Phys. 65, 189 (in Russian).Google Scholar
Novoselov, Yu.N. & Uvarin, V.V. 1995c Optika i Spektroskopiya 78, 124 (in Russian).Google Scholar
Novoselov, Yu.N. & Uvarin, V.V. 1997 Pis'ma v Zh. Tech. Phys. 23, 44 (in Russian).Google Scholar
Novoselov, Yu.N.et al. 1996 J. Quant. Electron. 26, 205.Google Scholar
Ohwa, M. & Kushner, M.J. 1990 IEEE J. Quant. Electron. QE-26, 1639.Google Scholar
Ohwa, M.et al. 1989 J. Appl. Phys. 66, 5131.CrossRefGoogle Scholar
Patterson, E.L. & Samlin, G.E. 1993 Sandia Nat. Lab. Rep. SAND 93–0057-US-911.Google Scholar
Patterson, E.L.et al. 1989 Sandia Nat. Lab. Rep. SAND 89–0716.Google Scholar
Patterson, E.L.et al. 1990a IEEE J. Quant. Electron. QE-26, 1653.CrossRefGoogle Scholar
Patterson, E.L.et al. 1990b IEEE J. Quant. Electron. QE-26, 1661.Google Scholar
Perkins, T.T. 1993 J. Appl. Phys. 74, 4860.Google Scholar
Peters, P.J.M.et al. 1988 Appl. Phys. B. 47, 187.Google Scholar
Peters, P.J.M.et al. 1989 Appl. Phys. Lett. 54, 193.Google Scholar
Peters, P.J.M. et al. 1990 IEEE J. Quant. Electron. QE-26, 1964.Google Scholar
Sereda, O.V.et al. 1991 Sov. J. Quant. Electron. 18, 195.Google Scholar
Sereda, O.V.et al. 1993 Sov. J. Quant. Electron. 20, 535.Google Scholar
Shon, J.V.et al. 1993 J. Appl. Phys. 73, 8059.CrossRefGoogle Scholar
Skakun, V.S.et al. 1991 Optika i Spektroskopiya 71, 669 (in Russian).Google Scholar
Suda, A.et al. 1990 IEEE J. Quant. Electron. QE-26, 1304.Google Scholar
Vintizenko, L.G. 1986 Doklady AN USSR 286, 609 (in Russian).Google Scholar
Voinov, A.M.et al. 1989 Pis'ma v Zh. Tech. Phys. 15, 56 (in Russian).Google Scholar
Voinov, A.M.et al. 1990 Doklady AN USSR 312, 864 (in Russian).Google Scholar
Voinov, A.M.et al. 1991 Sov. J. Quant. Electron. 18, 1297.Google Scholar
Yakovlenko, S.I. (ed.) 1989 Visible and UV Plasma Lasers (Moscow, Nauka) (in Russian).Google Scholar
Zayarnyi, D.A. & Kholin, I.V. 1990 Preprint of FIAN, No 88, M-1919 (in Russian).Google Scholar
Zayarnyi, D.A.et al. 1990 Sov. J. Quant. Electron. 18, 536.Google Scholar