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A 50 l Cygno prototype overground characterization

F. D. Amaro, Rita Antonietti, E. Baracchini, L. Benussi, Stefano Bianco, Francesco Borra, C. Capoccia, M. Caponero, Danilo Santos Cardoso, G. Cavoto, I.A. Costa, Emiliano Dané, Giorgio Dho, Flaminia Di Giambattista, Emanuele Di Marco, G. D’imperio, J.M.F. dos Santos, Giovanni Grilli di Cortona, F. Iacoangeli, E. Kemp, Herman Pessoa Lima Júnior, G.S.P. Lopes, Amaro da Silva Lopes Júnior, G. Maccarrone, R. D. P. Mano, Robert Renz Gregorio, David José Gaspar Marques, G. Mazzitelli, Alasdair Gregor McLean, Pietro Meloni, A. Messina, Cristina Maria Bernardes Monteiro, Rafael Antunes Nóbrega, Igor Fonseca Pains, E. Paoletti, L. Passamonti, Sandro Pelosi, F. Petrucci, Stefano Piacentini, Davide Piccolo, D. Pierluigi, D. Pinci, Atul Prajapati, F. Renga, Rita Joana da Cruz Roque, F. Rosatelli, A. Russo, Giovanna Saviano, N.J.C. Spooner, Roberto Tesauro, S. Tomassini, Samuele Torelli, D Tozzi

2023The European Physical Journal C10 citationsDOIOpen Access PDF

Abstract

Abstract The nature of dark matter is still unknown and an experimental program to look for dark matter particles in our Galaxy should extend its sensitivity to light particles in the GeV mass range and exploit the directional information of the DM particle motion (Vahsen et al. in CYGNUS: feasibility of a nuclear recoil observatory with directional sensitivity to dark matter and neutrinos, arXiv:2008.12587 , 2020). The Cygno project is studying a gaseous time projection chamber operated at atmospheric pressure with a Gas Electron Multiplier (Sauli in Nucl Instrum Meth A 386:531, https://doi.org/10.1016/S0168-9002(96)01172-2 , 1997) amplification and with an optical readout as a promising technology for light dark matter and directional searches. In this paper we describe the operation of a 50 l prototype named LIME (Long Imaging ModulE) in an overground location at Laboratori Nazionali di Frascati (LNF) of INFN. This prototype employs the technology under study for the 1 cubic meter Cygno demonstrator to be installed at the Laboratori Nazionali del Gran Sasso (LNGS) (Amaro et al. in Instruments 2022, 6(1), https://www.mdpi.com/2410-390X/6/1/6 , 2022). We report the characterization of LIME with photon sources in the energy range from few keV to several tens of keV to understand the performance of the energy reconstruction of the emitted electron. We achieved a low energy threshold of few keV and an energy resolution over the whole energy range of 10–20%, while operating the detector for several weeks continuously with very high operational efficiency. The energy spectrum of the reconstructed electrons is then reported and will be the basis to identify radio-contaminants of the LIME materials to be removed for future Cygno detectors.

Topics & Concepts

PhysicsDark matterTime projection chamberRecoilNuclear physicsGas electron multiplierElectronSensitivity (control systems)Range (aeronautics)Particle physicsAerospace engineeringEngineeringElectronic engineeringDark Matter and Cosmic PhenomenaParticle Detector Development and PerformanceAstrophysics and Cosmic Phenomena
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