DocumentCode :
3098936
Title :
Features of quasi-gasdynamic plasma confinement in ECR ion source with powerful microwave pumping
Author :
Golubev, S.V. ; Razin, S.V. ; Semenov, V.E. ; Smirnov, A.N. ; Vodopyanov, A.V. ; Zorin, V.G.
Author_Institution :
Inst. of Appl. Phys., Acad. of Sci., Nizhny Novgorod, Russia
fYear :
1999
fDate :
36373
Firstpage :
451
Lastpage :
454
Abstract :
Powerful ECR heating of a mirror-trapped plasma leads to formation of an anisotropic electron velocity distribution function (EDF): the average energy of the transverse, with respect to the magnetic field, electron motion is much greater than the energy of longitudinal motion. Theoretical studies of a mirror magnetic confinement of a multicomponent plasma with anisotropic EDF in a simple mirror trap reveals an essential augmentation in multicharged ion confinement time due to the EDF anisotropy. Consequently, the EDF anisotropy improves the ion charge state distribution (CSD). In this paper we discuss results of experimental investigation of an ECR discharge sustained by powerful pulse microwave radiation of a gyrotron in a mirror magnetic trap. In particular, data on plasma X-ray emission spectrum and on ion CSD are presented. Formation of the ion CSD has been explored both experimentally and numerically
Keywords :
gyrotrons; ion sources; magnetic mirrors; plasma radiofrequency heating; ECR ion source; EDF anisotropy; anisotropic electron velocity distribution function; gyrotron; ion charge state distribution; microwave pumping; mirror-trapped plasma; multicharged ion confinement time; multicomponent plasma; plasma X-ray emission spectrum; pulse microwave radiation; quasi-gasdynamic plasma confinement; Anisotropic magnetoresistance; Distribution functions; Electrons; Heating; Ion sources; Magnetic confinement; Magnetic fields; Mirrors; Plasma confinement; Plasma sources;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Electronics and Radiophysics of Ultra-High Frequencies, 1999. International University Conference Proceedings
Conference_Location :
St Petersburg
Print_ISBN :
5-7422-0083-8
Type :
conf
DOI :
10.1109/UHF.1999.787985
Filename :
787985
Link To Document :
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