Abstract
The purpose of this paper is to study the possibility of intense proton beam formation, using monocrystal, sufficient for generation of secondary particle beams. Silicon crystal, bent by the angle of 13 mrad deflected a part of 70 GeV proton beam of 1.3x10{sup 13} intensity in the cycle at 5 {mu}s extraction duration and 9 s cycle repetition time. It is shown that the beam of {approx}10{sup 11}/cycle can be shapes if crystal is located in the beam of similar high density, but with less angular divergence. The intense beam extraction by a crystal in colliders can stimulate the creation of experimental base for fixed target investigations. 7 refs.; 5 figs.
Citation Formats
Galyaev, N A, Gres`, V N, Dudenko, V V, Zapol`skij, V N, Kotov, V I, Terekhov, V I, Tsarik, S V, and Chesnokov, Yu A.
Operation of the bent single crystal in intense beams; Rabota izognutogo monokristalla v intensivnykh puchkakh.
Russian Federation: N. p.,
1991.
Web.
Galyaev, N A, Gres`, V N, Dudenko, V V, Zapol`skij, V N, Kotov, V I, Terekhov, V I, Tsarik, S V, & Chesnokov, Yu A.
Operation of the bent single crystal in intense beams; Rabota izognutogo monokristalla v intensivnykh puchkakh.
Russian Federation.
Galyaev, N A, Gres`, V N, Dudenko, V V, Zapol`skij, V N, Kotov, V I, Terekhov, V I, Tsarik, S V, and Chesnokov, Yu A.
1991.
"Operation of the bent single crystal in intense beams; Rabota izognutogo monokristalla v intensivnykh puchkakh."
Russian Federation.
@misc{etde_10112951,
title = {Operation of the bent single crystal in intense beams; Rabota izognutogo monokristalla v intensivnykh puchkakh}
author = {Galyaev, N A, Gres`, V N, Dudenko, V V, Zapol`skij, V N, Kotov, V I, Terekhov, V I, Tsarik, S V, and Chesnokov, Yu A}
abstractNote = {The purpose of this paper is to study the possibility of intense proton beam formation, using monocrystal, sufficient for generation of secondary particle beams. Silicon crystal, bent by the angle of 13 mrad deflected a part of 70 GeV proton beam of 1.3x10{sup 13} intensity in the cycle at 5 {mu}s extraction duration and 9 s cycle repetition time. It is shown that the beam of {approx}10{sup 11}/cycle can be shapes if crystal is located in the beam of similar high density, but with less angular divergence. The intense beam extraction by a crystal in colliders can stimulate the creation of experimental base for fixed target investigations. 7 refs.; 5 figs.}
place = {Russian Federation}
year = {1991}
month = {Dec}
}
title = {Operation of the bent single crystal in intense beams; Rabota izognutogo monokristalla v intensivnykh puchkakh}
author = {Galyaev, N A, Gres`, V N, Dudenko, V V, Zapol`skij, V N, Kotov, V I, Terekhov, V I, Tsarik, S V, and Chesnokov, Yu A}
abstractNote = {The purpose of this paper is to study the possibility of intense proton beam formation, using monocrystal, sufficient for generation of secondary particle beams. Silicon crystal, bent by the angle of 13 mrad deflected a part of 70 GeV proton beam of 1.3x10{sup 13} intensity in the cycle at 5 {mu}s extraction duration and 9 s cycle repetition time. It is shown that the beam of {approx}10{sup 11}/cycle can be shapes if crystal is located in the beam of similar high density, but with less angular divergence. The intense beam extraction by a crystal in colliders can stimulate the creation of experimental base for fixed target investigations. 7 refs.; 5 figs.}
place = {Russian Federation}
year = {1991}
month = {Dec}
}