Author:
Pham T.H.,Auguste D.,Babeluk M.,Barbero M.,Baudot J.,Bergauer T.,Bernlochner F.,Bertolone G.,Bettarini S.,Bosi F.,Bonis J.,Boudagga R.,Breugnon P.,Buch Y.,Buchsteiner F.,Calo M.S.,Casarosa G.,Dingfelder J.,Dorokhov A.,Federici L.,Fillinger T.,Finck C.,Forti F.,Fougeron D.,Frey A.,Gaioni L.,Giroletti S.,Himmi A.,Kou E.,Hu Guo C.,Irmler C.,Karagounis M.,Kishishita T.,Krüger H.,Kumar A.,Marinas C.,Massa M.,Massaccesi L.,Mazorra de Cos J.,Minuti M.,Mondal S.,Morel F.,Nakamura K.,Pangaud P.,Peinaud Y.,Ratti L.,Re V.,Riceputi E.,Ripp Baudot I.,Rizzo G.,Schall L.,Schwanda C.,Schwenker B.,Schwickardi M.,Stavroulakis P.,Wang S.,Wessel C.,Winter M.,Traversi G.,Valin I.,Xu D.,
Abstract
Abstract
The Belle II collaboration has initiated a program to upgrade its detector in order to address the challenges set by the increase of the SuperKEKB collider luminosity, targeting 6×1035 cm2 s-1. A monolithic CMOS pixel sensor named OBELIX (Optimized BELle II pIXel) is proposed to equip 5 detection layers upgrading the current vertex detector. Based on the existing TJ-Monopix2, OBELIX is currently designed in 180 nm CMOS process.
Cited by
1 articles.
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1. The OBELIX chip for the Belle II VTX upgrade;Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment;2024-10