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Test beam evaluation of silicon strip modules for ATLAS phase-II strip tracker upgrade

Publication at Faculty of Mathematics and Physics |
2019

Abstract

The planned High Luminosity Large Hadron Collider is being designed to maximise the physics potential of the LHC with 10 years of operation at instantaneous luminosities of 7.5 x 10(34) cm(-2) s(-1). A consequence of this increased luminosity is the expected radiation damage requiring the tracking detectors to withstand hadron fluence to over 1 x 10(15) 1 MeV neutron equivalent per cm(2) in the ATLAS Strips system.

Fast readout electronics, deploying 130 nm CMOS front-end electronics are glued on top of a silicon sensor to make a module. The radiation hard n-in-p micro-strip sensors used have been developed by the ATLAS ITk Strip Sensor collaboration and produced by Hamamatsu Photonics.

A series of tests were performed at the DESY-II test beam facility to investigate the detailed performance of a strip module with both 2.5 cm and 5 cm length strips before irradiation. The DURANTA telescope was used to obtain a pointing resolution of 2 mu m, with an additional pixel layer installed to improve timing resolution to similar to 25 ns.

Results show that prior to irradiation a wide range of thresholds (0.5-2.0 fC) meet the requirements of a noise occupancy less than 1 x 10(-3) and a hit efficiency greater than 99%.