Abstract
The TORCH detector is proposed for the low-momentum particle identification upgrade of the LHCb experiment. It combines Time-Of-Flight and Cherenkov techniques to achieve charged particle separation up to 10 GeV/c. This requires a time resolution of 70 ps for single photons. Existing electronics has already demonstrated a 26 ps intrinsic time resolution; however the channel count and density need improvements for future micro-channel plate devices. This paper will report on a scalable design using custom ASICs (NINO-32 and HPTDC). The system provides up to 8 × 64 channels for a single micro-channel plate device. It is also designed to read out micro-channel plate tubes with charge-sharing technique.
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Gao, R., Brook, N., Castillo García, L., Cowie, E. N., Cussans, D., Forty, R., … Van Dijk, M. (2015). Development of scalable electronics for the TORCH time-of-flight detector. In Journal of Instrumentation (Vol. 10). Institute of Physics Publishing. https://doi.org/10.1088/1748-0221/10/02/C02028
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