Abstract
A pair of beam profile monitors using alumina ceramic screens (Al{sub 2}O{sub 3}) and CCD cameras has been developed for diagnosis of a linac beam at the 1.3 GeV electron synchrotron of the Institute for Nuclear Study, the University of Tokyo (INS-ES). Since both the light decay-time of the screen and a shutter speed of the camera are relatively short, about 5 msec or less and 1 msec, respectively , this system is able to measure the beam profile for each pulse of the linac beam operated at a repetition rate of 21.5 Hz. Detailed analysis of the beam profile is made using the stored data on the personal computer. On the other hand, a light spot on the screen is displayed directly on a monitor display. This paper describes the constitution of the monitor system and performances. The preliminary results of beam sizes and emittances of the linac beam measured using this monitor are also presented. (author).
Citation Formats
Hashimoto, Y, Muto, M, Norimura, K, and Watanabe, K.
Beam profile monitor using alumina screen and CCD camera.
Japan: N. p.,
1992.
Web.
Hashimoto, Y, Muto, M, Norimura, K, & Watanabe, K.
Beam profile monitor using alumina screen and CCD camera.
Japan.
Hashimoto, Y, Muto, M, Norimura, K, and Watanabe, K.
1992.
"Beam profile monitor using alumina screen and CCD camera."
Japan.
@misc{etde_10123190,
title = {Beam profile monitor using alumina screen and CCD camera}
author = {Hashimoto, Y, Muto, M, Norimura, K, and Watanabe, K}
abstractNote = {A pair of beam profile monitors using alumina ceramic screens (Al{sub 2}O{sub 3}) and CCD cameras has been developed for diagnosis of a linac beam at the 1.3 GeV electron synchrotron of the Institute for Nuclear Study, the University of Tokyo (INS-ES). Since both the light decay-time of the screen and a shutter speed of the camera are relatively short, about 5 msec or less and 1 msec, respectively , this system is able to measure the beam profile for each pulse of the linac beam operated at a repetition rate of 21.5 Hz. Detailed analysis of the beam profile is made using the stored data on the personal computer. On the other hand, a light spot on the screen is displayed directly on a monitor display. This paper describes the constitution of the monitor system and performances. The preliminary results of beam sizes and emittances of the linac beam measured using this monitor are also presented. (author).}
place = {Japan}
year = {1992}
month = {Aug}
}
title = {Beam profile monitor using alumina screen and CCD camera}
author = {Hashimoto, Y, Muto, M, Norimura, K, and Watanabe, K}
abstractNote = {A pair of beam profile monitors using alumina ceramic screens (Al{sub 2}O{sub 3}) and CCD cameras has been developed for diagnosis of a linac beam at the 1.3 GeV electron synchrotron of the Institute for Nuclear Study, the University of Tokyo (INS-ES). Since both the light decay-time of the screen and a shutter speed of the camera are relatively short, about 5 msec or less and 1 msec, respectively , this system is able to measure the beam profile for each pulse of the linac beam operated at a repetition rate of 21.5 Hz. Detailed analysis of the beam profile is made using the stored data on the personal computer. On the other hand, a light spot on the screen is displayed directly on a monitor display. This paper describes the constitution of the monitor system and performances. The preliminary results of beam sizes and emittances of the linac beam measured using this monitor are also presented. (author).}
place = {Japan}
year = {1992}
month = {Aug}
}