Diamond Prototypes for the ATLAS SLHC Pixel Detector

TL;DR

This paper reports on the development and testing of diamond-based pixel detectors for high-radiation environments in future collider experiments, highlighting their performance and radiation hardness.

Contribution

It introduces a single-crystal diamond pixel detector and provides performance data from beam tests, advancing diamond detector technology for particle physics.

Findings

High detection efficiency demonstrated

Good spatial resolution achieved

Radiation damage effects characterized

Abstract

Vertex detectors at future hadron colliders will need to cope with large particle fluences. Diamond is a particularly radiation hard material and exhibits further properties that makes it an attractive material for such detectors. Within the RD42 collaboration several chemical vapor deposition diamond samples are being studied in the form of strip and pixel detectors. While the quality of the poly-crystalline diamond samples is constantly increasing and the feasibility of producing wafers has been demonstrated, recently a single-crystal diamond pixel detector has been assembled and characterized in a 100 GeV particle beam at CERN. Results on performance, detection efficiency, spatial resolution and charge collection are reported here together with the latest radiation damage studies.