Neutrons in a nanosecond low-pressure discharge in deuterium
[1] A. Macchi, A femtosecond neutron source, Appl. Phys. B 82 (2006) 337-340.
[2] V.I. Ryzhkov, Generation of short neutron pulses with using the neutron tubes, Ph.D. thesis, National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Moscow, 2005.
[3] K.W. Ledingham, P. McKenna, P.R. Singhal, Applications for nuclear phenomena generated by ultra-intense lasers, Science 300 (2003) 1107-1111.
[4] V.S.Belyaev,V.I.Vinogradov,A.S.Kurilov,A.P.Matafonov,V.P.Andrianov, et al., Neutron production in a picosecond laser plasma at a radiation intensity of 3$1017 W/cm2, JETP 98 (2004) 1133-1137.
[5] G.I. Kiryanov, Fast Neutron Generators, Enrgoatomizdat, Moscow, 1990.
[6] A.N. Didenko, A.E. Shikanov, V.I. Raschikov, V.I. Ryzhkov, V.L. Shatokhin, Generations of nanosecond neutron pulses in vacuum accelerating tubes, Tech. Phys. 59 (2014) 904-910.
[7] L.V. Tarasova, L.N. Khudyakova, V.V. Shutov, Using autoionic emission and the surface ionization of deuterium in strong electric fields to obtain fast neutrons, Soviet Phys. J. 11 (1968) 121-123.
[8] V. Ya. Averchenkov, L.P. Babich, T.V. Loiko, N.G. Pavlovskaya, S.P. Pukhov, Acceleration of deuterons and generation of nanosecond neutron pulses by strongly overvoltaged discharges in deuterium, Tech. Phys. 65 (1995) 156-167.
[9] L.P. Babich, High-energy Phenomena in Electric Discharges in Dense Gases: ISTC Science and Technology Series, Futurepast, Arlington, 2003.
[10] M.I. Lomaev, B.A. Nechaev, V.N. Padalko, S.I. Kuznetsov, D.A. Sorokin, et al., Neutron emission during a nanosecond discharge in a nonuniform electric field, Tech. Phys. 57 (2012) 126-132.
[11] F. Ya. Zagulov, A.S. Kotov, V.G. Shpak, Ya. Ya. Yurike, M.I. Yalandin, RADAN e a compact repetitive pulsed high-current electron accelerator, Pri. Tech. Exp. 2 (1989) 146-149.
[12] V.F. Boreiko, V.M. Bystritsky, V.M. Grebenyk, A.I. Ivanov, A.I. Kalinin, et al., 3He-detectors in experiments at the powerful pulsed accelerators, Nucl. Instr. Methods Phys. Res. A 490 (2002) 344-355.
[13] V.M. Bystritsky, J. Wozniak, V.V. Gerasimov, V.S. Smirnov, Scintillation detectors for experiments on plasma accelerators, Instr. Experim. Tech. 48 (2005) 764-771.
[14] M.I. Lomaev, B.A. Nechaev, V.N. Padalko, G.N. Dudkin, D.A. Sorokin, et al., Generation of neutrons in a nanosecond low-pressure discharge in deuterium, Tech. Phys. 60 (2015) 152-155.
[15] V.F. Tarasenko, E. Kh. Baksht, A.G. Burachenko, M.I. Lomaev, D.A. Sorokin, Modes of generation of runaway electron beams in He, H2, Ne, and N2 at pressure of 1-760 Torr, IEEE Trans. Plasma Sci. 38 (2010) 2583-2587.
[16] V.S. Imshennik, N.A. Bobrova, Dynamics of Collisional Plasma, Energoatomizdat, Moscow, 1997.
[17] D.A. Sorokin, M.I. Lomaev, V.F. Tarasenko, B.A. Nechaev, V.N. Padalko, et al., Electrode material splashing during the high-voltage nanosecond discharge in deuterium, hydrogen, helium, and argon at low pressure, Atmos. Ocean. Opt. 27 (2014) 454-457.
Victor F. Tarasenko, Mikhail I. Lomaev, Dmitry A. Sorokin, Boris A. Nechaev, Vladimir N. Padalko, Gennady N. Dudkin. Neutrons in a nanosecond low-pressure discharge in deuterium[J]. Matter and Radiation at Extremes, 2016, 1(4): 207.
PDF全文
