Design and performance of SiPM-based readout of PbF2 crystals for high-rate, precision timing applications

J. Kaspar; A.T. Fienberg; D.W. Hertzog; M.A. Huehn; P. Kammel; K.S. Khaw; D.A. Peterson; M.W. Smith; T.D. Van Wechel; A. Chapelain; L.K. Gibbons; D.A. Sweigart; C. Ferrari; A. Fioretti; C. Gabbanini; G. Venanzoni; M. Iacovacci; S. Mastroianni; K. Giovanetti; W. Gohn; T. Gorringe; D. Pocanic

doi:10.1088/1748-0221/12/01/P01009

Journal of Instrumentation

Design and performance of SiPM-based readout of PbF₂ crystals for high-rate, precision timing applications

J. Kaspar¹, A.T. Fienberg¹, D.W. Hertzog¹, M.A. Huehn¹, P. Kammel¹, K.S. Khaw¹, D.A. Peterson¹, M.W. Smith¹, T.D. Van Wechel¹, A. Chapelain², L.K. Gibbons², D.A. Sweigart², C. Ferrari^3,4, A. Fioretti^3,4, C. Gabbanini^3,4, G. Venanzoni³, M. Iacovacci^5,6, S. Mastroianni⁵, K. Giovanetti⁷, W. Gohn⁸, T. Gorringe⁸ and D. Pocanic⁹

Published 11 January 2017 • © 2017 IOP Publishing Ltd and Sissa Medialab srl
Journal of Instrumentation, Volume 12, January 2017 Citation J. Kaspar et al 2017 JINST 12 P01009 DOI 10.1088/1748-0221/12/01/P01009

Download Article PDF

Article metrics

316 Total downloads

Permissions

Get permission to re-use this article

Author affiliations

¹ University of Washington, Department of Physics, Box 351560, Seattle, WA, 98195 U.S.A.

² Cornell University, Department of Physics, 511 Clark Hall, Ithaca, NY, 14853 U.S.A.

³ Laboratori Nazionali Frascati dell'INFN, Via E. Fermi 40, Frascati, 00044 Italy

⁴ Istituto Nazionale di Ottica del C.N.R., UOS Pisa, Via Moruzzi 1, Pisa, 56124 Italy

⁵ INFN, Sezione di Napoli, Ed. 6, Via Cintia, Napoli, 80126 Italy

⁶ Università di Napoli, Corso Umberto I 40, Napoli, 80138 Italy

⁷ James Madison University, Department of Physics and Astronomy, 901 Carrier Dr, Harrisonburg, VA, 22807 U.S.A.

⁸ University of Kentucky, Department of Physics and Astronomy, 505 Rose Street, Lexington, KY, 40506 U.S.A.

⁹ University of Virginia, Department of Physics, 382 McCormick Rd, Charlottesville, VA, 22904 U.S.A.

Dates

Received 11 November 2016
Accepted 28 December 2016
Published 11 January 2017

Buy this article in print

Journal RSS

Sign up for new issue notifications

Abstract

We have developed a custom amplifier board coupled to a large-format 16-channel Hamamatsu silicon photomultiplier device for use as the light sensor for the electromagnetic calorimeters in the Muon g - 2 experiment at Fermilab. The calorimeter absorber is an array of lead-fluoride crystals, which produces short-duration Cherenkov light. The detector sits in the high magnetic field of the muon storage ring. The SiPMs selected, and their accompanying custom electronics, must preserve the short pulse shape, have high quantum efficiency, be non-magnetic, exhibit gain stability under varying rate conditions, and cover a fairly large fraction of the crystal exit surface area. We describe an optimized design that employs the new-generation of thru-silicon via devices. The performance is documented in a series of bench and beam tests.

Export citation and abstract BibTeX RIS

Previous article in issue

Next article in issue