Publikationen P. Fischer & Arbeitsgruppe
by Fischer P, Zimmermann RK. and Maisano B
Abstract:
The detection of light from optical fibers is required in a variety of particle detector types like fiber trackers or sampling calorimeters. Instead of using classical photo sensors like PMTs or SiPMs and associated readout electronics, we propose to combine Single Photon Sensitive Avalanche Diodes (SPADs) and CMOS readout electronics on the same silicon die. We have developed, fabricated and initially characterized such a ‘Digital SiPM’ solution. In order to provide a high flexibility in fiber diameters and positions, our architecture allows for assigning the individual SPADs to programmable ‘groups’ which are routed to chip pins. The purely digital output signals provide the timing by the rising edge and an amplitude information by the pulse width. The first available chip has been successfully used to detect light of individual fibers from a fiber bundle. The proposed concept could significantly reduce the mechanical and electronic complexity as well as the cost of fiber readouts and possibly improve their performance.
Reference:
CMOS SPAD sensor chip for the readout of scintillating fibers (Fischer P, et al.), In Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, volume 1040, 2022.
Bibtex Entry:
@Article{FISCHER2022167033,
title = "{CMOS} {SPAD} sensor chip for the readout of
scintillating fibers",
journal = "Nuclear Instruments and Methods in Physics Research
Section A: Accelerators, Spectrometers, Detectors and
Associated Equipment",
volume = "1040",
pages = "167033",
year = "2022",
ISSN = "0168-9002",
doi = "10.1016/j.nima.2022.167033",
author = "Peter Fischer and Robert K. Zimmermann and Benedict
Maisano",
keywords = "Optical fiber readout, Digital SiPM, CMOS SPAD",
abstract = "The detection of light from optical fibers is required
in a variety of particle detector types like fiber
trackers or sampling calorimeters. Instead of using
classical photo sensors like PMTs or SiPMs and
associated readout electronics, we propose to combine
Single Photon Sensitive Avalanche Diodes (SPADs) and
CMOS readout electronics on the same silicon die. We
have developed, fabricated and initially characterized
such a ‘Digital SiPM’ solution. In order to provide
a high flexibility in fiber diameters and positions,
our architecture allows for assigning the individual
SPADs to programmable ‘groups’ which are routed to
chip pins. The purely digital output signals provide
the timing by the rising edge and an amplitude
information by the pulse width. The first available
chip has been successfully used to detect light of
individual fibers from a fiber bundle. The proposed
concept could significantly reduce the mechanical and
electronic complexity as well as the cost of fiber
readouts and possibly improve their performance.",
}