Directional Dark Matter Searches with CYGNO
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Published:2021-07-06
Issue:3
Volume:4
Page:343-353
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ISSN:2571-712X
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Container-title:Particles
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language:en
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Short-container-title:Particles
Author:
Amaro Fernando Domingues, Baracchini Elisabetta, Benussi Luigi, Bianco Stefano, Capoccia Cesidio, Caponero Michele, Cavoto Gianluca, Cortez AndréORCID, Costa Igor Abritta, Dané Emiliano, Dho Giorgio, Di Marco Emanuele, D’Imperio Giulia, Di Giambattista Flaminia, Gregorio Robert R. M., Iacoangeli Francesco, Lima Júnior Herman Pessoa, Silva Lopes Júnior Amaro da, Maccarrone Giovanni, Mano Rui Daniel Passos, Marafini Michela, Mazzitelli Giovanni, McLean Alasdair G., Messina Andrea, Bernardes Monteiro Cristina Maria, Nobrega Rafael Antunes, Pains Igor Fonseca, Paoletti Emiliano, Passamonti Luciano, Pelosi Sandro, Petrucci Fabrizio, Piacentini Stefano, Piccolo Davide, Pierluigi Daniele, Pinci DavideORCID, Prajapati Atul, Renga FrancescoORCID, Cruz Roque Rita Joana da, Rosatelli Filippo, Russo Andrea, Santos Joaquim Marques Ferreira dos, Saviano Giovanna, Spooner Neil, Tesauro Roberto, Tomassini SandroORCID, Torelli Samuele
Abstract
The CYGNO project aims at developing a high resolution Time Projection Chamber with optical readout for directional dark matter searches and solar neutrino spectroscopy. Peculiar CYGNO’s features are the 3D tracking capability provided by the combination of photomultipliers and scientific CMOS camera signals, combined with a helium-fluorine-based gas mixture at atmospheric pressure amplified by gas electron multipliers structures. In this paper, the performances achieved with CYGNO prototypes and the prospects for the upcoming underground installation at Laboratori Nazionali del Gran Sasso of a 50-L detector in fall 2021 will be discussed, together with the plans for a 1-m3 experiment. The synergy with the ERC consolidator, grant project INITIUM, aimed at realising negative ion drift operation within the CYGNO 3D optical approach, will be further illustrated.
Funder
H2020 European Research Council
Cited by
4 articles.
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