Neutral Bremsstrahlung emission in xenon unveiled

C. A. O. Henriques; P. Amedo; J. M. R. Teixeira; D. Gonzalez-Diaz; C.; D. R. Azevedo; A. Para; J. Martin-Albo; A. Saa Hernandez; J. J.; Gomez-Cadenas; D. R. Nygren; C.M.B. Monteiro; C. Adams; V. Alvarez; L. Arazi,; I. J. Arnquist; K. Bailey; F. Ballester; J. M. Benlloch-Rodriguez; F. I. G.; M. Borges; N. Byrnes; S. Carcel; J. V. Carrion; S. Cebrian; E. Church; C. A.; N. Conde; T. Contreras; G. Diaz; J. Diaz; M. Diesburg; J. Escada; R. Esteve,; R. Felkai; A. F. M. Fernandes; L. M. P. Fernandes; P. Ferrario; A. L.; Ferreira; E. D. C. Freitas; J. Generowicz; S. Ghosh; A. Goldschmidt; R.; Guenette; R. M. Gutierrez; J. Haefner; K. Hafidi; J. Hauptman; J. A. Hernando; Morata; P. Herrero; V. Herrero; Y. Ifergan; B. J. P. Jones; M. Kekic; L.; Labarga; A. Laing; P. Lebrun; N. Lopez-March; M. Losada; R. D. P. Mano; A.; Martinez; M. Martinez-Vara; G. Martinez-Lema; A. D. McDonald; F. Monrabal; F.; J. Mora; J. Munoz Vidal; P. Novella; B. Palmeiro; J. Perez; M. Querol; A. B.; Redwine; J. Renner; J. Repond; S. Riordan; L. Ripoll; Y. Rodriguez Garcia; J.; Rodriguez; L. Rogers; B. Romeo; C. Romo-Luque; F. P. Santos; J. M. F. dos; Santos; A. Simon; C. Sofka; M. Sorel; T. Stiegler; J. F. Toledo; J. Torrent,; A. Uson; J. F. C. A. Veloso; R. Webb; R. Weiss-Babai; J. T. White; K.; Woodruff; N. Yahlali

arXiv:2202.02614·physics.ins-det·May 17, 2022

Neutral Bremsstrahlung emission in xenon unveiled

C. A. O. Henriques, P. Amedo, J. M. R. Teixeira, D. Gonzalez-Diaz, C., D. R. Azevedo, A. Para, J. Martin-Albo, A. Saa Hernandez, J. J., Gomez-Cadenas, D. R. Nygren, C.M.B. Monteiro, C. Adams, V. Alvarez, L. Arazi,, I. J. Arnquist, K. Bailey, F. Ballester

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TL;DR

This paper uncovers neutral bremsstrahlung as a new secondary scintillation mechanism in gaseous xenon, quantifies its emission properties, and discusses its implications for background noise and signal detection in TPC-based physics experiments.

Contribution

It provides the first detailed experimental and theoretical analysis of NBrS in xenon, highlighting its potential impact on detector design and signal interpretation.

Findings

01

NBrS yield increases with electric field strength

02

NBrS is significantly fainter than excimer-based electroluminescence

03

NBrS can interfere with low-level scintillation measurements

Abstract

We present evidence of non-excimer-based secondary scintillation in gaseous xenon, obtained using both the NEXT-White TPC and a dedicated setup. Detailed comparison with first-principle calculations allows us to assign this scintillation mechanism to neutral bremsstrahlung (NBrS), a process that has been postulated to exist in xenon that has been largely overlooked. For photon emission below 1000 nm, the NBrS yield increases from about 10 $^{- 2}$ photon/e $^{-}$ cm $^{- 1}$ bar $^{- 1}$ at pressure-reduced electric field values of 50 V cm $^{- 1}$ bar $^{- 1}$ to above 3 $\times$ 10 $^{- 1}$ photon/e $^{-}$ cm $^{- 1}$ bar $^{- 1}$ at 500 V cm $^{- 1}$ bar $^{- 1}$ . Above 1.5 kV cm $^{- 1}$ bar $^{- 1}$ , values that are typically employed for electroluminescence, it is estimated that NBrS is present with an intensity around 1 photon/e $^{-}$ cm $^{- 1}$ bar $^{- 1}$ , which is about two orders of magnitude lower than…

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