Modeling Backgrounds for the MAJORANA DEMONSTRATOR

C.R. Haufe; I.J. Arnquist; F.T. Avignone III; A.S. Barabash; C.J.; Barton; K.H. Bhimani; E. Blalock; B. Bos; M. Busch; M. Buuck; T.S. Caldwell,; Y-D. Chan; C.D. Christofferson; P.-H. Chu; M.L. Clark; C. Cuesta; J.A.; Detwiler; Yu. Efremenko; H. Ejiri; S.R. Elliott; G.K. Giovanetti; M.P. Green,; J. Gruszko; I.S. Guinn; V.E. Guiseppe; R. Henning; D. Hervas Aguilar; E.W.; Hoppe; A. Hostiuc; M.F. Kidd; I. Kim; R.T. Kouzes; T.E. Lannen V; A. Li; A.M.; Lopez; J.M. L\'opez-Casta\~no; E.L. Martin; R.D. Martin; R. Massarczyk; S.J.; Meijer; T.K. Oli; G. Othman; L.S. Paudel; W. Pettus; A.W.P. Poon; D.C.; Radford; A.L. Reine; K. Rielage; N.W. Ruof; D.C. Schaper; D. Tedeschi; R.L.; Varner; S. Vasilyev; J.F. Wilkerson; C. Wiseman; W. Xu; C.-H. Yu; and B.X.; Zhu

arXiv:2209.10592·nucl-ex·January 12, 2023

Modeling Backgrounds for the MAJORANA DEMONSTRATOR

C.R. Haufe, I.J. Arnquist, F.T. Avignone III, A.S. Barabash, C.J., Barton, K.H. Bhimani, E. Blalock, B. Bos, M. Busch, M. Buuck, T.S. Caldwell,, Y-D. Chan, C.D. Christofferson, P.-H. Chu, M.L. Clark, C. Cuesta, J.A., Detwiler, Yu. Efremenko, H. Ejiri, S.R. Elliott

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TL;DR

This paper develops a background model for the MAJORANA DEMONSTRATOR, identifying sources of unexpected background events, which informs future detector design and enhances the experiment's sensitivity to neutrinoless double-beta decay.

Contribution

It presents a detailed background modeling approach that explains the excess events observed, guiding improvements for next-generation experiments like LEGEND.

Findings

01

Background rate higher than projections by a factor of five.

02

The excess is not from near-detector components.

03

Model informs design decisions for LEGEND.

Abstract

The MAJORANA DEMONSTRATOR is a neutrinoless double-beta decay ( $0 ν β β$ ) experiment containing $\sim$ 30 kg of p-type point contact germanium detectors enriched to 88% in 76Ge and $\sim$ 14 kg of natural germanium detectors. The detectors are housed in two electroformed copper cryostats and surrounded by a graded passive shield with active muon veto. An extensive radioassay campaign was performed prior to installation to insure the use of ultra-clean materials. The DEMONSTRATOR achieved one of the lowest background rates in the region of the $0 ν β β$ Q-value, 15.7 $\pm$ 1.4 cts/(FWHM t y) from the low-background configuration spanning most of the 64.5 kg-yr active exposure. Nevertheless this background rate is a factor of five higher than the projected background rate. This discrepancy arises from an excess of events from the 232Th decay chain. Background model fits aim to…

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Taxonomy

TopicsNeutrino Physics Research · Astrophysics and Cosmic Phenomena · Particle physics theoretical and experimental studies