The use of cosmic-ray muons in the energy calibration of the Beta-decay Paul Trap silicon-detector array

T Hirsh ,K Siegl,F Buchinger,R Orford,A Nystrom,J A Clark ,A Aprahamian,K S Sharma ,G Savard,G Morgan ,R E Segel ,E Heckmaier,A Pérez Galván ,A T Gallant ,B.S Wang,S T Marley ,A F Levand ,M T Burkey ,S Caldwell,N D Scielzo

doi:10.1016/j.nima.2018.01.021

The use of cosmic-ray muons in the energy calibration of the Beta-decay Paul Trap silicon-detector array

T Hirsh , K Siegl + Show 18 more

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https://doi.org/10.1016/j.nima.2018.01.021

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Journal: Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment	Publication Date: Jan 12, 2018
Citations: 6	License type: publisher-specific-oa

Affiliation: University of Manitoba, Argonne National Laboratory, University of Notre Dame, McGill University, University of Chicago, Northwestern University, University of California, Irvine, Vertex Pharmaceuticals (United States), Lawrence Livermore National Laboratory

#Double-sided Silicon Strip Detectors #Energy Response Of Detectors + Show 8 more

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Abstract

This article presents an approach to calibrate the energy response of double-sided silicon strip detectors (DSSDs) for low-energy nuclear-science experiments by utilizing cosmic-ray muons. For the 1-mm-thick detectors used with the Beta-decay Paul Trap, the minimum-ionizing peak from these muons provides a stable and time-independent in situ calibration point at around 300 keV, which supplements the calibration data obtained above 3 MeV from α sources. The muon-data calibration is achieved by comparing experimental spectra with detailed Monte Carlo simulations performed using GEANT4 and CRY codes. This additional information constrains the calibration at lower energies, resulting in improvements in quality and accuracy.

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