Authors:
E. Grauges, A. Comerma, Lluis Garrido, David Gascon, Jordi Garra, Ricardo Graciani, Eduard Picatoste, E. Aguilo, Xavier Vilasis-Cardona, Álvaro Gaspar de Valenzuela, G. Bohner, R. Bonnefoy, David Borras, R. Cornat, M. Crouau, Olivier Deschamps, Phil (...)
E. Grauges, A. Comerma, Lluis Garrido, David Gascon, Jordi Garra, Ricardo Graciani, Eduard Picatoste, E. Aguilo, Xavier Vilasis-Cardona, Álvaro Gaspar de Valenzuela, G. Bohner, R. Bonnefoy, David Borras, R. Cornat, M. Crouau, Olivier Deschamps, Philippe Jacquet, J. Lecoq, Stephane Monteil, Pascal Perret, G. Reinmuth
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Abstract:
International audience; The final choice as the photomultiplier solution for both the LHCb Pre-Shower (PS) and the Scintillator Pad Detector (SPD) are the R7600-00-M64MOD Hamamatsu 64 channel photomultiplier tubes (MaPMT). A total of 220 units have been purchased to the manufacturer and around 100 units, the part corresponding to the SPD, have been characterized at the photon detection test bench facility in the University of Barcelona (UB) high energy physics group laboratory. There, the crucial features of the tubes such as linearity, gain, c (...)
International audience; The final choice as the photomultiplier solution for both the LHCb Pre-Shower (PS) and the Scintillator Pad Detector (SPD) are the R7600-00-M64MOD Hamamatsu 64 channel photomultiplier tubes (MaPMT). A total of 220 units have been purchased to the manufacturer and around 100 units, the part corresponding to the SPD, have been characterized at the photon detection test bench facility in the University of Barcelona (UB) high energy physics group laboratory. There, the crucial features of the tubes such as linearity, gain, channel cross-talk and anode uniformity of response have been measured to ensure the compliance with the specifications agreed with the manufacturer.
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