Microdischarges of AC-coupled silicon strip sensors

T Ohsugi,Y Iwata,H Ohyama,T Ohmoto,M Okada,M Yoshikawa,N Tamura,T Hatakenaka,Y Unno,T Kohriki,N Ujiie,H Miyata,T Aso,R Takashima,A Murakami,S Kobayashi,K Yamamoto,K Yamamura,M Muramatsu

doi:10.1016/0168-9002(94)91405-2

T Ohsugi, Y Iwata + Show 17 more

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https://doi.org/10.1016/0168-9002(94)91405-2

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Microdischarge at the edges of strips in AC-coupled silicon strip sensors has been investigated. A steep increase in the leakage current (breakdown) and a sudden onset of burst noise were observed at a low reverse-bias voltage when the bias potential was across the AC-coupling capacitor. This can be explained by the occurrence of microdischarges along the edges of strips. These discharges have been confirmed by observing IR light emission. A calculation of the field strength at the strip edge suggests that a fringe field of the external electrode generates the microdischarge at the strip edge when the bias voltage is 50–80 V. This is consistent with our observations. We discuss a design for AC-coupled sensors that eliminates this discharge problem.

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