Light detection and simulation for nEXO
ORAL
Abstract
nEXO is a 5 tonne liquid xenon time projection chamber (TPC) that
aims to detect neutrinoless double beta decay in 136Xe with a projected
90% CL half-life sensitivity of 1.35x1028 yr. nEXO will be able to mea-
sure energy deposits from both ionization electrons and scintillation pho-
tons from events that occur inside the detector. Silicon photomultiplers
(SiPMs) will surround the sides of the TPC to detect scintillation light,
providing a more highly pixellated light collection system than most pre-
vious liquid Xe TPCs. With this design, the detector will have high light
collection efficiency and energy resolution of σ/Qββ < 1% as well as the
ability to image the location of interactions based on their light signals.
This talk presents the current characterization of candidate SiPMs and
simulation of the light response in the nEXO detector.
aims to detect neutrinoless double beta decay in 136Xe with a projected
90% CL half-life sensitivity of 1.35x1028 yr. nEXO will be able to mea-
sure energy deposits from both ionization electrons and scintillation pho-
tons from events that occur inside the detector. Silicon photomultiplers
(SiPMs) will surround the sides of the TPC to detect scintillation light,
providing a more highly pixellated light collection system than most pre-
vious liquid Xe TPCs. With this design, the detector will have high light
collection efficiency and energy resolution of σ/Qββ < 1% as well as the
ability to image the location of interactions based on their light signals.
This talk presents the current characterization of candidate SiPMs and
simulation of the light response in the nEXO detector.
*nEXO is supported by the Office of Nuclear Physics within DOE's Office of Science, and NSF in the United States; NSERC, CFI, FRQNT, NRC, and the McDonald Institute (CFREF) in Canada; IBS in Korea; RFBR in Russia; and CAS and NSFC in China. This material is based upon work supported by the National Science Foundation Graduate Research Fellowship under Grant No. DGE-2139841.
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Presenters
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Sierra H Wilde
- Yale University