Boosting background suppression in the NEXT experiment through   Richardson-Lucy deconvolution

A. Sim\'on; Y. Ifergan; A.B. Redwine; R. Weiss-Babai; L. Arazi; C.; Adams; H. Almaz\'an; V. \'Alvarez; B. Aparicio; A.I. Aranburu; I.J. Arnquist,; C.D.R Azevedo; K. Bailey; F. Ballester; J.M. Benlloch-Rodr\'iguez; F.I.G.M.; Borges; N. Byrnes; S. C\'arcel; J.V. Carri\'on; S. Cebri\'an; E. Church,; C.A.N. Conde; T. Contreras; F.P. Coss\'io; A.A. Denisenko; G. D\'iaz; J.; D\'iaz; J. Escada; R. Esteve; R. Felkai; L.M.P. Fernandes; P. Ferrario; A.L.; Ferreira; F. Foss; E.D.C. Freitas; Z. Freixa; J. Generowicz; A. Goldschmidt,; J.J. G\'omez-Cadenas; R. Gonz\'alez; D. Gonz\'alez-D\'iaz; S. Gosh; R.; Guenette; R.M. Guti\'errez; J. Haefner; K. Hafidi; J. Hauptman; C.A.O.; Henriques; J.A. Hernando Morata; P. Herrero; V. Herrero; J. Ho; B.J.P. Jones,; M. Kekic; L. Labarga; A. Laing; P. Lebrun; N. L\'opez-March; M. Losada,; R.D.P. Mano; J. Mart\'in-Albo; A. Mart\'inez; M. Mart\'inez-Vara; G.; Mart\'inez-Lema; A.D. McDonald; Z.-E. Meziani; F. Monrabal; C.M.B. Monteiro,; F.J. Mora; J. Mu\~noz Vidal; C. Newhouse; P. Novella; D.R. Nygren; E. Oblak,; M. Odriozola-Gimeno; B. Palmeiro; A. Para; J. P\'erez; M. Querol; J. Renner,; L. Ripoll; I. Rivilla; Y. Rodr\'iguez Garc\'ia; J. Rodr\'iguez; C. Rogero; L.; Rogers; B. Romeo; C. Romo-Luque; F.P. Santos; J.M.F. dos Santos; M. Sorel; C.; Stanford; J.M.R. Teixeira; P. Thapa; J.F. Toledo; J. Torrent; A. Us\'on,; J.F.C.A. Veloso; T.T. Vuong; R. Webb; J.T. White; K. Woodruff; N. Yahlali

arXiv:2102.11931·physics.ins-det·September 9, 2021

Boosting background suppression in the NEXT experiment through Richardson-Lucy deconvolution

A. Sim\'on, Y. Ifergan, A.B. Redwine, R. Weiss-Babai, L. Arazi, C., Adams, H. Almaz\'an, V. \'Alvarez, B. Aparicio, A.I. Aranburu, I.J. Arnquist,, C.D.R Azevedo, K. Bailey, F. Ballester, J.M. Benlloch-Rodr\'iguez, F.I.G.M., Borges, N. Byrnes, S. C\'arcel, J.V. Carri\'on

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TL;DR

This paper introduces a Richardson-Lucy deconvolution-based reconstruction method that enhances background suppression in the NEXT neutrinoless double beta decay experiment by producing more detailed 3D event images.

Contribution

The paper presents a novel reconstruction technique using Richardson-Lucy deconvolution to improve topological background discrimination in the NEXT experiment.

Findings

01

Background rejection factor increased to 27 with 57% signal efficiency.

02

Significant improvement in 3D event image quality.

03

Enhanced background suppression compared to previous methods.

Abstract

Next-generation neutrinoless double beta decay experiments aim for half-life sensitivities of ~ $1 0^{27}$ yr, requiring suppressing backgrounds to <1 count/tonne/yr. For this, any extra background rejection handle, beyond excellent energy resolution and the use of extremely radiopure materials, is of utmost importance. The NEXT experiment exploits differences in the spatial ionization patterns of double beta decay and single-electron events to discriminate signal from background. While the former display two Bragg peak dense ionization regions at the opposite ends of the track, the latter typically have only one such feature. Thus, comparing the energies at the track extremes provides an additional rejection tool. The unique combination of the topology-based background discrimination and excellent energy resolution (1% FWHM at the Q-value of the decay) is the distinguishing feature of…

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