DocumentCode :
437776
Title :
Performance of rate capability for glass RPC operated in streamer mode with nitrogen laser beam
Author :
Kumagai, M. ; Abe, K. ; Hoshi, Y. ; Neichi, K. ; Hayasaka, H. ; Yamaguchi, A. ; Yuta, H.
Author_Institution :
Dept. of Appl. Phys., Tohoku Gakuin Univ., Tagajo, Japan
Volume :
1
fYear :
2004
fDate :
16-22 Oct. 2004
Firstpage :
442
Abstract :
Resistive plate chamber (RPC) has attracted high-energy and cosmic-ray experiment since its introduction in early 1980´s because of high efficiency, good time resolution, tracking capability and low cost. From these features, RPCs have been chosen as the muon detector for Belle experiment at KEK. The RPCs have two operation mode; avalanche and streamer mode. The avalanche mode has an advantage that it offers in terms of rate capability to compare with the streamer mode. But, the streamer mode is still preferred for high-energy experiment, mainly for its characteristics of giving large and saturated signal that makes the front-end electronics simple and the experiment operation easy. From this point of view, we have to study the rate capability of the streamer for a glass RPC with nitrogen laser beam. Furthermore, we are going to study the fundamental gas properties of streamer, drift velocity, diffusion, and electron attachment in the glass RPC. In this conference, we report the preliminary results of the rate capability of the glass RPC operated in streamer mode with nitrogen laser beam. The results provide us more knowledge of the rate capability for the streamer mode operation.
Keywords :
cosmic ray apparatus; diffusion; electron attachment; ionisation chambers; muon detection; position sensitive particle detectors; Belle experiment; KEK; avalanche mode; cosmic-ray experiment; diffusion; drift velocity; electron attachment; front-end electronics; gas properties; glass RPC; high-energy experiment; large saturated signal; muon detector; nitrogen laser beam; rate capability; streamer mode; time resolution; tracking capability; Absorption; Costs; Detectors; Electrons; Gas lasers; Glass; Ionization; Laser beams; Laser modes; Nitrogen;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Nuclear Science Symposium Conference Record, 2004 IEEE
ISSN :
1082-3654
Print_ISBN :
0-7803-8700-7
Electronic_ISBN :
1082-3654
Type :
conf
DOI :
10.1109/NSSMIC.2004.1462230
Filename :
1462230
Link To Document :
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