Abstract
The Research Laboratory, for Nuclear Reactors, Tokyo Institute of Technology has conducted experimental study on accelerating structure and beam behavior of high intensity heavy ion accelerator for a beam driver and its computer simulation study as a circle of fundamental study of the heavy ion inertial nuclear fusion. From last fiscal year, a preliminary study for measuring the correlation between beam and plasma using low speed heavy ion beam from 1.7 MV tandem accelerator was begun. As a result, a possibility of forming a plasma target with above 10 (exp 17)/cu cm in free electron density and about 100 ns in life possible to supply to measurement of the correlation between beam and plasma was obtained by formation of laser plasma target and development of diagnostic measurement system. According to the preliminary calculation, it is expected to be larger charging state of ion passing through plasma than that in normal temperature target, and stoppability is presumed to increase largely and to apply to electron stopper for accelerator. And, a plan of time resolution measurement of energy loss of beam passed through plasma target using magnetic field type spectrometer and high speed plastic scintillator is also preceeding. (G.K.)
Oguri, Yoshiyuki;
Abe, Satoru;
Sakumi, Akira;
Okazaki, Hisashi;
Watanabe, Takeshi
[1]
- Tokyo Inst. of Tech. (Japan). Research Lab. for Nuclear Reactors
Citation Formats
Oguri, Yoshiyuki, Abe, Satoru, Sakumi, Akira, Okazaki, Hisashi, and Watanabe, Takeshi.
Plan of measurement experiment of correlation between ion beam and plasma.
Japan: N. p.,
1996.
Web.
Oguri, Yoshiyuki, Abe, Satoru, Sakumi, Akira, Okazaki, Hisashi, & Watanabe, Takeshi.
Plan of measurement experiment of correlation between ion beam and plasma.
Japan.
Oguri, Yoshiyuki, Abe, Satoru, Sakumi, Akira, Okazaki, Hisashi, and Watanabe, Takeshi.
1996.
"Plan of measurement experiment of correlation between ion beam and plasma."
Japan.
@misc{etde_588145,
title = {Plan of measurement experiment of correlation between ion beam and plasma}
author = {Oguri, Yoshiyuki, Abe, Satoru, Sakumi, Akira, Okazaki, Hisashi, and Watanabe, Takeshi}
abstractNote = {The Research Laboratory, for Nuclear Reactors, Tokyo Institute of Technology has conducted experimental study on accelerating structure and beam behavior of high intensity heavy ion accelerator for a beam driver and its computer simulation study as a circle of fundamental study of the heavy ion inertial nuclear fusion. From last fiscal year, a preliminary study for measuring the correlation between beam and plasma using low speed heavy ion beam from 1.7 MV tandem accelerator was begun. As a result, a possibility of forming a plasma target with above 10 (exp 17)/cu cm in free electron density and about 100 ns in life possible to supply to measurement of the correlation between beam and plasma was obtained by formation of laser plasma target and development of diagnostic measurement system. According to the preliminary calculation, it is expected to be larger charging state of ion passing through plasma than that in normal temperature target, and stoppability is presumed to increase largely and to apply to electron stopper for accelerator. And, a plan of time resolution measurement of energy loss of beam passed through plasma target using magnetic field type spectrometer and high speed plastic scintillator is also preceeding. (G.K.)}
place = {Japan}
year = {1996}
month = {Dec}
}
title = {Plan of measurement experiment of correlation between ion beam and plasma}
author = {Oguri, Yoshiyuki, Abe, Satoru, Sakumi, Akira, Okazaki, Hisashi, and Watanabe, Takeshi}
abstractNote = {The Research Laboratory, for Nuclear Reactors, Tokyo Institute of Technology has conducted experimental study on accelerating structure and beam behavior of high intensity heavy ion accelerator for a beam driver and its computer simulation study as a circle of fundamental study of the heavy ion inertial nuclear fusion. From last fiscal year, a preliminary study for measuring the correlation between beam and plasma using low speed heavy ion beam from 1.7 MV tandem accelerator was begun. As a result, a possibility of forming a plasma target with above 10 (exp 17)/cu cm in free electron density and about 100 ns in life possible to supply to measurement of the correlation between beam and plasma was obtained by formation of laser plasma target and development of diagnostic measurement system. According to the preliminary calculation, it is expected to be larger charging state of ion passing through plasma than that in normal temperature target, and stoppability is presumed to increase largely and to apply to electron stopper for accelerator. And, a plan of time resolution measurement of energy loss of beam passed through plasma target using magnetic field type spectrometer and high speed plastic scintillator is also preceeding. (G.K.)}
place = {Japan}
year = {1996}
month = {Dec}
}