Charge Waveform of a New Two-Dimensional Position-Sensotive Silicon Detector : Nuclear Science, Plasmas and Electric Discharges
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概要
- 論文の詳細を見る
The operation principles of the two-dimensional position-sensitive silicon detector newly developed by Doke et al. were studied using a simple model. This model treats the detector as an area of continuously distributed capacitance C and resistance R_s of position surface layer. A linear relationship can then be obtained between the position of the incident particle and change collected at the contacts of the detector. The kinetics of charge collected at corner contacts, ballistic deficit and noise were calculated. Rise time of the charge pulse (10-90%) was found to vary with the position of incidence up to about R_sC/8. It was found that a shaping time constant longer than R_sC/3 is required for pulse shaping with single CR-defferentiation and single CR-integration in to obtain a ballistic deficit of less than 1%.
- 社団法人応用物理学会の論文
- 1988-05-20
著者
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Hasebe Nobuyuki
Faculty of General Education, Ehime University
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Ezawa Yasuo
Faculty Of General Education Ehime University
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YOSHII Hisashi
Faculty of General Education, Ehime Univ.
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YANAGIMACHI Tomiki
Faculty of Science, Rikkyo University
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Hasebe Nobuyuki
Faculty Of General Education Ehime University
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Yoshii Hisashi
Faculty Of General Education Ehime Univ.
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Yoshii Hisashi
Faculty Of General Education Ehime University
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Yanagimachi Tomiki
Faculty Of Science Rikkyo University
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- Charge Waveform of a New Two-Dimensional Position-Sensotive Silicon Detector : Nuclear Science, Plasmas and Electric Discharges
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