Energy Reconstruction of Electromagnetic Showers from π0 Decays with the ICARUS T600 Liquid Argon TPC

Autor: Ankowski, A., Bueno Villar, Antonio, Carmona-Benítez, María del Carmen, García Gámez, Diego, Lozano Bahílo, Julio, Martínez de la Ossa, Alberto, Melgarejo, Antonio José, Navas Concha, Sergio
Jazyk: angličtina
Rok vydání: 2010
Předmět:
Zdroj: Digibug. Repositorio Institucional de la Universidad de Granada
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Popis: We discuss the ICARUS T600 detector capabilities in electromagnetic shower reconstruction through the analysis of a sample of 212 events, coming from the 2001 Pavia surface test run, of hadronic interactions leading to the production of π0 mesons. Methods of shower energy and shower direction measurements were developed and the invariant mass of the photon pairs was reconstructed. The (γ,γ) invariant mass was found to be consistent with the value of the π0 mass. The resolution of the reconstructed π0 mass was found to be equal to 27.3%. An improved analysis, carried out in order to clean the full event sample from the events measured in the crowded environment, mostly due to the trigger conditions, gave a π0 mass resolution of 16.1%, significantly better than the one evaluated for the full event sample. The trigger requirement of the coincidence of at least four photo-multiplier signals favored the selection of events with a strong pile up of cosmic ray tracks and interactions. Hence a number of candidate π0 events were heavily contaminated by other tracks and had to be rejected. Monte Carlo simulations of events with π0 production in hadronic and neutrino interactions confirmed the validity of the shower energy and shower direction reconstruction methods applied to the real data.
We are glad of the financial and technical support of our funding agencies and in particular of the Istituto Nazionale di Fisica Nucleare (INFN). The Polish groups acknowledge the support of the Ministry of Science and Higher Education in Poland, 105,160,620,621/E-344,E-340,E-77,E-78/SPB/ICARUS/ P-03/DZ211-214/2003-2008, 1P03B04130 and N N202 0299 33.
Databáze: OpenAIRE