Analysis techniques in LHCf are presented, in which all techniques are required to have a high resolution and efficiency in order to overcome the severe situation, small lateral aperture and longitudinally short length of the detector. In this paper, methods for reconstructing an energy of electromagnetic shower are discussed following the data flow of measured data and Monte Carlo simulations.
Data Analysis Techniques For LHCf / G. Mitsuka;O. Adriani;L. Bonechi;M. Bongi;G. Castellini;R. D'Alessandro;K. Fukatsu;M. Haguenauer;Y. Itow;K. Kasahara;K. Kawade;D. Macina;T. Mase;K. Masuda;Y. Matsubara;H. Menjo;Y. Muraki;M. Nakai;K. Noda;P. Papini;A. L. Perrot;S. Ricciarini;T. Sako;Y. Shimizu;K. Suzuki;T. Suzuki;K. Taki;T. Tamura;S. Torii;A. Tricomi;W. C. Turner;K. Yoshida. - In: AIP CONFERENCE PROCEEDINGS. - ISSN 0094-243X. - STAMPA. - 1367:(2011), pp. 212-215. (Intervento presentato al convegno International Symposium on the Recent Progress of Ultra-High Energy Cosmic Ray Observation, UHECR2010) [10.1063/1.3628748].
Data Analysis Techniques For LHCf
ADRIANI, OSCAR;BONECHI, LORENZO;BONGI, MASSIMO;D'ALESSANDRO, RAFFAELLO;
2011
Abstract
Analysis techniques in LHCf are presented, in which all techniques are required to have a high resolution and efficiency in order to overcome the severe situation, small lateral aperture and longitudinally short length of the detector. In this paper, methods for reconstructing an energy of electromagnetic shower are discussed following the data flow of measured data and Monte Carlo simulations.
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