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Intense negative hydrogen ion production in high-power diodes

Published online by Cambridge University Press:  09 March 2009

V. A. Papadichev
V. A. Papadichev
Affiliation:
P. N. Lebedev Physical Institute, Leninsky Prospect 53, Moscow 117924, USSR
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Abstract

Some peculiarities of using negative ions for accelerators and CTR are examined. Highpower beams of fast atoms obtained by charge exchange of negative ions can have advantages over positive ion beams for inertial confinement fusion (ICF) since they do not experience any deviations, instabilities, and scattering. H current up to 7 kA in a 100–200 ns pulse with densities up to 200 Å/cm2 and a voltage of 0.8 MV were obtained in experiments on magnetically insulated diodes at the Lebedev Physical Institute. Diagnostics of high-power H beams are described. Experimental results on cathode plasma formation by surface discharge on a dielectric initiated by a bipolar prepulse or by laser illumination are presented. The dependence of H yield on cathode current was determined and experiments on plasma stabilization are described. It is concluded that 1 kÅ/cm2 of H can be obtained.

Type
Regular Papers
Information
Laser and Particle Beams , Volume 9 , Issue 1 , March 1991 , pp. 167 - 189
Copyright
Copyright © Cambridge University Press 1991

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References

REFERENCES

Agafonov, A. V., Lebedev, A. N., & Orlov, D. B. 1981 Pisma v. J. Techn. Fiz. (USSR) 7, 1258.Google Scholar
Agafonov, A. V. et al. 1983 J. Exp. Theor. Phys. (USSR) 84, 2040.Google Scholar
Agafonov, A. V. et al. 1984 Theses of Reports on All-Union Symposium on High-Current Electronics, Tomsk, part 2, p. 54.Google Scholar
Agafonov, A. V. et al. 1985 Proceedings of 9th All-Union Conference on Charged Particle Accelerators,Dubna, v. 2, p. 168.Google Scholar
Agafonov, A. V., Lebedev, A. N. & Orlov, D. B. 1988 Proceedings of 7th International Conference on High-Power Particle Beams,Karlsruhe, FGR, p. 650.Google Scholar
Alessi, J. G. et al. 1987 Proceedings 1987 Particle Accelerator Conference,Washington, D.C., v. 1, p. 276.Google Scholar
Bacal, M. 1982 Phys. Scripta, 2, (2), 467.Google Scholar
Bacal, M. et al. 1986 Proc. 2nd European Workshop on Production and Application of Light Negative Ions,Palaiseau, France, p. 17.Google Scholar
Bachmann, H. et al. 1988 Proc. 7th Int. Conf. on High-Power Particle Beams,Karlsruhe, FRG, p. 827.Google Scholar
Belchenko, Yu. I. et al. 1987 J. Appl. Mech. Tech. Phys., Novosibirsk USSR, 4, 106.Google Scholar
Belchenko, Yu. I. & Kupriyanov, A. S. 1988 Proc. 3rd Europ. Workshop on Production and Appl. of Light Negative Ions,Amersfoort, Netherlands, p. 133.Google Scholar
Bistritsky, V. M. et al. 1986 Proc. 6th Int. Conf. on High-Power Particle Beams,Kobe, Japan, p. 113.Google Scholar
Budker, G. I. & Dimov, G. I. 1963 Proceedings of International Accelerator Conference.Moscow, Nauka, p. 933.Google Scholar
Budker, G. I., Dimov, G. I. & Dudnikov, V. G. 1967 Atomnaya Energia (USSR).Google Scholar
Dimov, G. I. 1981 Proc. X European Conf. on CTR and Plasma Physics,Moscow, Vol. 2, p. 35.Google Scholar
Doucet, H. J. et al. 1986 Proc. 2nd Europ. Workshop on Production and Appl. of Light Negative Ions,Palaiseau, France, p. 95.Google Scholar
Doucet, H. J. 1986a. Proc. 4th Int. Conf. on Production and Neutralization of Negative Hydrogen Ions and Beams,Brookhaven, CT, p. 453.Google Scholar
Dreike, P. et al. 1976 J. Appl. Phys., 47, 85.Google Scholar
Fisher, A. & Rostoker, N. 1976 Bull. Am. Phys. Soc., 21, 1097.Google Scholar
Fisher, A., Lindenbaum, H. & Rostoker, N. 1986 Proc. 6th Int. Conf. on High-Power Particle Beams,Kobe, Japan, p. 116.Google Scholar
Gabovich, M. D. 1977 Uspekhi Physicheskikh Nauk (USSR), 121, (2), 259.Google Scholar
Gabovich, M. D., Pleshivtsev, N. U. & Semashko, N. N. 1986 Ion and Atom Beams for CTR and Technology (Energoizdat, Moscow).Google Scholar
Hammer, D. A. et al. 1983 Proc. 5th Int. Conf. on High-Power Particle Beams,San Francisco, CA, p. 56.Google Scholar
Holmes, A. J. T. 1986 Proc. 2nd European Workshop on Prod. and Appl. of Light Negative Ions,Palaiseau, France, p. 1.Google Scholar
Holmes, A. J. T. 1987 Proc. of IEEE Particle Accelerator Conf.,Washington, DC, p. 259.Google Scholar
Humphries, S. 1978 Appl. Phys. Lett., 32, 792.Google Scholar
Humprhies, S. et al. 1981 Phys. Rev. Lett., 46, 996.Google Scholar
Kolomensky, A. A. et al. 1983 Proc. 5th Int. Conf. on High-Power Particle Beams,San Francisco, CA, p. 533.Google Scholar
Kolomensky, A. A. et al. 1986 Proc. 2nd European Workshop on Production and Appl. of Light Negative Ions,Palaiseau, France, p. 87.Google Scholar
Kolomensky, A. A. et al. 1986a Proc. 6th Int. Conf. on High-Power Particle Beams,Kobe, Japan, p. 208.Google Scholar
Lindenbaum, H., Fisher, A. & Rostoker, N. 1988 Proc. 7th Int. Conf. on High-Power Particle Beams,Karlsruhe, FRG, p. 677.Google Scholar
Lockner, T. R. et al. 1988 Proc. 7th Int. Conf. on High-Power Particle Beams,Karlsruhe, FRG, p. 311.Google Scholar
Maenchen, J. et al. 1986 Proc. 6th Int. Conf. on High-Power Particle Beams, p. 85.Google Scholar
Mikhalev, P. S. 1988 Proc. 3d European Workshop on Production and Appl. of Light Negative Ions,Amersfoort, Netherlands, p. 231.Google Scholar
Moustaizis, S. et al. 1986 Proc. 6th Int. Conf. on High-Power Particle Beams,Kobe, Japan, p. 119.Google Scholar
Papadichev, V. A. & Shelkovenko, T. A. 1987 Kratkie Soobtshenia Fizike (USSR), 7, 56.Google Scholar
Papadichev, V. A., Pikuz, S. A. & Shelkovenko, T. A. 1987a. Kratkie Soobtshenia Fizike (USSR), 11, 54.Google Scholar
Papadichev, V. A. & Shelkovenko, T. A. 1988 Proc. 3rd Europ. Workshop on Prod. and Appl. of Light Negative Ions,Amersfoort, Netherlands, p. 238.Google Scholar
Papadichev, V. A., Pikuz, S. A. & Shelkovenko, T. A. 1988a Proc. 7th Int. Conf. on High-Power Particle Beams,Karlshruhe, FRG, p. 715.Google Scholar
Papadichev, V. A. 1988b Proc. 7th Int. Conf. on High-Power Particle Beams,Karlsruhe, FRG, p. 479.Google Scholar
Plutto, A. A. 1960 J. Exper. Theor. Phys. (USSR), 39, 1589.Google Scholar
Poelz, G. 1985 Aerogels.Proceedings of the 1st International Symp.,Wurzburg, FRG, Berlin.Google Scholar
Reiser, M. 1981 IEEE Trans. on Nuclear Science, NS-28, N3, p. 3355.Google Scholar
Richardson, J. R. et al. 1975 IEEE Trans. NS-22, 1402.Google Scholar
Schempp, A., Schartok, P. & Klein, H. 1987 Proc. 1987 IEEE Particle Accel. Conf.,Washington, DC, p. 361.Google Scholar
Semashko, N. N. et al. 1986 Proc. 4th Int. Conf. on Production and Neutralization of Negative Hydrogen Ions and Beams,Brookhaven, CT,AIP Conf. Proc. N158, p. 334.Google Scholar
Stinnett, R. W. & Stanley, T. 1982 J. Appl. Phys. 53, 8849.Google Scholar
Stinnett, R. W. & Buttram, M. T. 1983 J. Fusion Energy, 3(4), 253.Google Scholar
Stinnett, R. W. et al. 1983a IEEE Trans. Plasma Sc. PS-11(3), 216.Google Scholar
Van Devender, J. P., Stinnett, R. W., & Anderson, R. J. 1981 Appl. Phys. Lett., 38, 229.Google Scholar
Van Devender, J. P., et al. 1986 Proc. 6th Int. Conf. on High-Power Particle Beams,Kobe, Japan, p. 43.Google Scholar
Yatsui, K. et al. 1988 Proc. 7th Int. Conf. on High-Power Particle Beams,Karlsruhe, FRG, p. 522.Google Scholar