The latest advances in the design and characterization of several pixel sensors developed to satisfy the very demanding requirements of the innermost layer of the SuperB Silicon Vertex Tracker will be presented in this paper. The SuperB machine is an electron positron collider operating at the Ï(4S) peak to be built in the very near future by the Cabibbo Lab consortium. A pixel detector based on extremely thin, radiation hard devices able to cope with rate in the tens of MHz/cm2 range will be the optimal solution for the upgrade of the inner layer of the SuperB tracking system. At present several options with different levels of maturity are being investigated to understand advantages and potential issues of the different technologies: thin hybrid pixels, Deep N-Well CMOS MAPS, INMAPS CMOS MAPS featuring a quadruple well and high resistivity substrates and CMOS MAPS realized with Vertical Integration technology. The newest results from beam test, the outcomes of the radiation damage studies and the laboratory characterization of the latest prototypes will be reported.

Advances in the development of pixel detector for the SuperB Silicon Vertex Tracker

FABBRI, LAURA;GABRIELLI, ALESSANDRO;GIORGI, FILIPPO MARIA;SBARRA, CARLA;SEMPRINI CESARI, NICOLA;VALENTINETTI, SARA;VILLA, MAURO;ZOCCOLI, ANTONIO;
2013

Abstract

The latest advances in the design and characterization of several pixel sensors developed to satisfy the very demanding requirements of the innermost layer of the SuperB Silicon Vertex Tracker will be presented in this paper. The SuperB machine is an electron positron collider operating at the Ï(4S) peak to be built in the very near future by the Cabibbo Lab consortium. A pixel detector based on extremely thin, radiation hard devices able to cope with rate in the tens of MHz/cm2 range will be the optimal solution for the upgrade of the inner layer of the SuperB tracking system. At present several options with different levels of maturity are being investigated to understand advantages and potential issues of the different technologies: thin hybrid pixels, Deep N-Well CMOS MAPS, INMAPS CMOS MAPS featuring a quadruple well and high resistivity substrates and CMOS MAPS realized with Vertical Integration technology. The newest results from beam test, the outcomes of the radiation damage studies and the laboratory characterization of the latest prototypes will be reported.
2013
E. Paoloni;D. Comotti;M. Manghisoni;V. Re;G. Traversi;L. Fabbri;A. Gabrielli;F. Giorgi;G. Pellegrini;C. Sbarra;N. Semprini Cesari;S. Valentinetti;M. Villa;A. Zoccoli;A. Berra;D. Lietti;M. Prest;A. Bevan;F. Wilson;G. Beck;J. Morris;F. Gannaway;R. Cenci;L. Bombelli;M. Citterio;S. Coelli;C. Fiorini;V. Liberali;M. Monti;B. Nasri;N. Neri;F. Palombo;A. Stabile;G. Balestri;G. Batignani;A. Bernardelli;S. Bettarini;F. Bosi;G. Casarosa;M. Ceccanti;F. Forti;M.A. Giorgi;A. Lusiani;P. Mammini;F. Morsani;B. Oberhof;A. Perez;G. Petragnani;A. Profeti;G. Rizzo;A. Soldani;J. Walsh;L. Gaioni;A. Manazza;E. Quartieri;L. Ratti;S. Zucca;G.-F. Dalla Betta;G. Fontana;L. Pancheri;M. Povoli;G. Verzellesi;L. Bosisio;L. Lanceri;I. Rashevskaya;C. Stella;L. Vitale
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/214044
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