The SuperB asymmetric e+-e- collider has been recently approved by the Italian Government. With a design luminosity two orders of magnitude greater than the past B-Factories and by exploiting the low-energy beam polarization, within few years it is expected to start the study of rare B and D meson decays, where New Physics might show up, and lepton flavour violation in tau decays. Due to the reduced center of mass boost, the vertex resolution must be improved to achieve the same proper-time difference resolution for B decays obtained in BaBar. Thus, based on the layout of the BaBar vertex detector, the SuperB Silicon Vertex Tracker must be equipped with an extra innermost layer (the Layer0), very close to the interaction point. The most stringent physics requirements concern the low material budget and the high-background working conditions of the Layer0: striplets modules, with short strips on high resistivity silicon sensors, are the baseline solution foreseen for the beginning of data taking; an upgrade to pixel sensors, more robust against high background occupancy, is planned at the full luminosity. The latest results on the various pixel options explored by a specific R&D program on different pixel technologies will be described: CMOS MAPS, pixel sensors realized on multiple layers with a vertical integration technology and hybrid pixels. © Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike Licence.
R&D progress on the SuperB silicon vertex tracker
Bettarini, Stefano;Batignani, G.;Casarosa, G.;Forti, F.;Giorgi, M. A.;Oberhof, B.;Paoloni, E.;Rizzo, G.;
2011-01-01
Abstract
The SuperB asymmetric e+-e- collider has been recently approved by the Italian Government. With a design luminosity two orders of magnitude greater than the past B-Factories and by exploiting the low-energy beam polarization, within few years it is expected to start the study of rare B and D meson decays, where New Physics might show up, and lepton flavour violation in tau decays. Due to the reduced center of mass boost, the vertex resolution must be improved to achieve the same proper-time difference resolution for B decays obtained in BaBar. Thus, based on the layout of the BaBar vertex detector, the SuperB Silicon Vertex Tracker must be equipped with an extra innermost layer (the Layer0), very close to the interaction point. The most stringent physics requirements concern the low material budget and the high-background working conditions of the Layer0: striplets modules, with short strips on high resistivity silicon sensors, are the baseline solution foreseen for the beginning of data taking; an upgrade to pixel sensors, more robust against high background occupancy, is planned at the full luminosity. The latest results on the various pixel options explored by a specific R&D program on different pixel technologies will be described: CMOS MAPS, pixel sensors realized on multiple layers with a vertical integration technology and hybrid pixels. © Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike Licence.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.