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Monolithic active pixel sensor development for the upgrade of the ALICE inner tracking system

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Published 23 December 2013 © CERN 2013
, , Citation G Aglieri et al 2013 JINST 8 C12041 DOI 10.1088/1748-0221/8/12/C12041

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Author affiliations

1 CERN, 1210 Geneva 23, Switzerland

2 MIND, 61 Rue Antoine Redier, 74160 Archamps, France

3 School of Laser Technology and Photonics Institute of Science, Suranaree University of Technology, Nakhon Ratchasima 30000, Thailand

4 University of Cagliari and INFN, Strada prov.le per Sestu, km 1.00, 09042 Monserrato, Cagliari, Italy

5 Department of Physics and Astronomy ``G. Galilei'', University of Padova, Via Marzolo 8, 35131 Padova, Italy

6 INFN Padova, Via Marzolo 8, 35131 Padova, Italy

7 Department of Semiconductor Science, Dongguk University, 30, Pildong-ro 1-gil, Jung-gu, 100-715 Seoul, Korea

8 Department of Physics, Yonsei University, Yonsei-ro 50, Shinchon-dong, Seodaemun-gu, 120-749 Seoul, Korea

9 Physics department, Pusan National University, 30 Jangjeon-dong Keumjeong-gu, 609-735 Pusan, Korea

10 Department of Experimental Physics, University of Torino and INFN, Via P. Giuria 1, 10125 Torino, Italy

11 Physics Institute, Ruprecht-Karls-Universitat Heidelberg, Im Neuenheimer Feld 226, 69120 Heidelberg, Germany

12 Faculty for Physics, Institute for Atomic and Subatomic Physics, Technische Universität Wien, Wiedner Hauptstrasse 8, A-1040 Wien, Austria

13 College of Physical Science and Technology, Central China Normal University, Luo Yu Road 152, Wuhan, 430079 P.R. China

Dates

  1. Received 15 November 2013
  2. Accepted 3 December 2013
  3. Published

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1748-0221/8/12/C12041

Abstract

ALICE plans an upgrade of its Inner Tracking System for 2018. The development of a monolithic active pixel sensor for this upgrade is described. The TowerJazz 180 nm CMOS imaging sensor process has been chosen as it is possible to use full CMOS in the pixel due to the offering of a deep pwell and also to use different starting materials. The ALPIDE development is an alternative to approaches based on a rolling shutter architecture, and aims to reduce power consumption and integration time by an order of magnitude below the ALICE specifications, which would be quite beneficial in terms of material budget and background. The approach is based on an in-pixel binary front-end combined with a hit-driven architecture. Several prototypes have already been designed, submitted for fabrication and some of them tested with X-ray sources and particles in a beam. Analog power consumption has been limited by optimizing the Q/C of the sensor using Explorer chips. Promising but preliminary first results have also been obtained with a prototype ALPIDE. Radiation tolerance up to the ALICE requirements has also been verified.

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10.1088/1748-0221/8/12/C12041