The use of gaseous Time Projection Chambers enables the detection and the detailed study of rare events due to particles interactions with the atoms of the gas with energy releases as low as a few keV. Due to this capability, these instruments are being developed for applications in the field of astroparticle physics, such as the study of dark matter and neutrinos. To acquire events occurring in the sensitive volume with a high granularity, the Cygno collaboration is developing a solution where the light generated during the avalanche processes occurring in a multiplication stage based on Gas Electron Multiplier (GEM) is read out by optical sensors with very high sensitivity and spatial resolution. Toachieve a high light output, gas gain values of the order of 10 5 -10 6 are needed. In this working condition, a dependence of the detector response on the spatial density of the charge collected in the GEM holes has been observed, indicating a gain-reduction effect likely caused by space-charge buildup within the multiplication channels. This paper presents data collected with a prototype featuring a sensitive volume of about two liters, together with a model developed by the collaboration to describe and predict the gain dependence on charge density. A comparison with experimental data shows that the model reproduces, with a percent-level precision, the gain behaviour over nearly one order of magnitude.
Modeling the light response of an optically readout GEM based TPC for the CYGNO experiment / Amaro, Fernando Domingues; Antonietti, Rita; Baracchini, Elisabetta; Benussi, Luigi; Bianco, Stefano; Campagnola, Roberto; Capoccia, Cesidio; Caponero, Michele; Cavoto, Gianluca; Costa, Igor Abritta; Croce, Antonio; Dané, Emiliano; D'Astolfo, Melba; Dho, Giorgio; Di Giambattista, Flaminia; Di Marco, Emanuele; D'Imperio, Giulia; Marques Ferreira Dos Santos, Joaquim; Fiorina, Davide; Iacoangeli, Francesco; Islam, Zahoor Ul; Lima, Herman Pessoa; Kemp, Ernesto; Lewis, Francesca; Maccarrone, Giovanni; Mano, Rui Daniel Passos; Gregorio, Robert Renz Marcelo; Marques, David José Gaspar; Carvalho, Luan Gomes Mattosinhos De; Mazzitelli, Giovanni; Mclean, Alasdair Gregor; Meloni, Pietro; Messina, Andrea; Monteiro, Cristina Maria Bernardes; Nobrega, Rafael Antunes; Pains, Igor Fonseca; Pantalena, Matteo; Paoletti, Emiliano; Passamonti, Luciano; Petrucci, Fabrizio; Piacentini, Stefano; Piccolo, Davide; Pierluigi, Daniele; Pinci, Davide; Prajapati, Atul; Renga, Francesco; Roque, Rita Joana Cruz; Rosatelli, Filippo; Russo, Alessandro; Salamino, Sabrina; Saviano, Giovanna; Scamporlino, Federico Francesco; Serrecchia, Angelo; Silva, Pedro Alberto Oliveira Costa; Spooner, Neil John Curwen; Tesauro, Roberto; Tomassini, Sandro; Torelli, Samuele; Tozzi, Donatella. - In: EUROPEAN PHYSICAL JOURNAL. C, PARTICLES AND FIELDS. - ISSN 1434-6052. - 86:2(2026), pp. 1-14. [10.1140/epjc/s10052-026-15318-7]
Modeling the light response of an optically readout GEM based TPC for the CYGNO experiment
Cavoto, GianlucaMembro del Collaboration Group
;Messina, AndreaMembro del Collaboration Group
;Salamino, SabrinaMembro del Collaboration Group
;Saviano, GiovannaMembro del Collaboration Group
;Serrecchia, AngeloMembro del Collaboration Group
;Tozzi, DonatellaMembro del Collaboration Group
2026
Abstract
The use of gaseous Time Projection Chambers enables the detection and the detailed study of rare events due to particles interactions with the atoms of the gas with energy releases as low as a few keV. Due to this capability, these instruments are being developed for applications in the field of astroparticle physics, such as the study of dark matter and neutrinos. To acquire events occurring in the sensitive volume with a high granularity, the Cygno collaboration is developing a solution where the light generated during the avalanche processes occurring in a multiplication stage based on Gas Electron Multiplier (GEM) is read out by optical sensors with very high sensitivity and spatial resolution. Toachieve a high light output, gas gain values of the order of 10 5 -10 6 are needed. In this working condition, a dependence of the detector response on the spatial density of the charge collected in the GEM holes has been observed, indicating a gain-reduction effect likely caused by space-charge buildup within the multiplication channels. This paper presents data collected with a prototype featuring a sensitive volume of about two liters, together with a model developed by the collaboration to describe and predict the gain dependence on charge density. A comparison with experimental data shows that the model reproduces, with a percent-level precision, the gain behaviour over nearly one order of magnitude.| File | Dimensione | Formato | |
|---|---|---|---|
|
Amaro_Modeling-the-light_2026.pdf
accesso aperto
Note: Articolo su rivista
Tipologia:
Documento in Post-print (versione successiva alla peer review e accettata per la pubblicazione)
Licenza:
Creative commons
Dimensione
2.48 MB
Formato
Adobe PDF
|
2.48 MB | Adobe PDF |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
