Enhancing the light yield of He:CF$_4$ based gaseous detector

F.D. Amaro; R. Antonietti; E. Baracchini; L. Benussi; S. Bianco; R.; Campagnola; C. Capoccia; M. Caponero; D. S. Cardoso; L. G. M. de Carvalho; G.; Cavoto; I. Abritta Costa; A. Croce; E. Dan\'e; G. Dho; F. Di Giambattista; E.; Di Marco; M. D'Astolfo; G. D'Imperio; D. Fiorina; F. Iacoangeli; Z. Islam; H.; P. L. J\`unior; E. Kemp; G. Maccarrone; R. D. Passos Mano; R. R. M. Gregorio,; D. J. Gaspar Marques; G. Mazzitelli; A. G. McLean; A. Messina; P. Meloni; C.; M. Bernardes Monteiro; R. A. Nobrega; I. F. Pains; E. Paoletti; L.; Passamonti; F. Petrucci; S. Piacentini; D. Piccolo; D. Pierluigi; D. Pinci,; A. Prajapati; F. Renga; R. J. da Cruz Roque; F. Rosatelli; A. Russo; J. M. F.; dos Santos; G. Saviano; P. A. O. C. Silva; N. J. Curwen Spooner; R. Tesauro,; S. Tomassini; S. Torelli

arXiv:2406.05713·physics.ins-det·November 5, 2024

Enhancing the light yield of He:CF$_4$ based gaseous detector

F.D. Amaro, R. Antonietti, E. Baracchini, L. Benussi, S. Bianco, R., Campagnola, C. Capoccia, M. Caponero, D. S. Cardoso, L. G. M. de Carvalho, G., Cavoto, I. Abritta Costa, A. Croce, E. Dan\'e, G. Dho, F. Di Giambattista, E., Di Marco, M. D'Astolfo, G. D'Imperio, D. Fiorina

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TL;DR

This paper investigates how adding a strong electric field below the last GEM in a He:CF4 gaseous detector enhances light yield, improving detection sensitivity for rare event searches like dark matter detection.

Contribution

It introduces a novel electric field configuration below the GEMs, experimentally demonstrating increased light yield without compromising detector performance.

Findings

01

Additional electric field increases light yield significantly.

02

Enhanced light yield does not degrade energy resolution.

03

Electric field configuration maintains detector stability and performance.

Abstract

The CYGNO experiment aims to build a large ( $O (10)$ m $^{3}$ ) directional detector for rare event searches, such as nuclear recoils (NRs) induced by dark matter (DM), such as weakly interactive massive particles (WIMPs). The detector concept comprises a time projection chamber (TPC), filled with a He:CF $_{4}$ 60/40 scintillating gas mixture at room temperature and atmospheric pressure, equipped with an amplification stage made of a stack of three gas electron multipliers (GEMs) which are coupled to an optical readout. The latter consists in scientific CMOS (sCMOS) cameras and photomultipliers tubes (PMTs). The maximisation of the light yield of the amplification stage plays a major role in the determination of the energy threshold of the experiment. In this paper, we simulate the effect of the addition of a strong electric field below the last GEM plane on the GEM field structure…

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Taxonomy

TopicsSpectroscopy and Laser Applications · Atmospheric Ozone and Climate · Calibration and Measurement Techniques