CVD diamond detectors are of interest for charged particle detection and tracking due to their high radiation tolerance. In this article, we present, for the first time, beam test results from recently manufactured CVD diamond strip detectors and their behavior under low doses of electrons from a beta-source and the performance before and after intense (> 10(15)/cm(2)) proton- and pion-irradiations. We find that low dose irradiation increase the signal-to-noise ra io (pumping of the signal) and slightly deteriorate the spatial resolution. Intense irradiation with protons 2.2 x 10(15) p/cm(2) lowers the signal-to-noise ratio slightly. Intense irradiation with pions 2.9 x 10(15) pi/cm(2) lowers the signal-to-noise ratio more. The spatial resolution of the diamond sensors improves after irradiations. (C) 2002 Published by Elsevier Science B.V.
Performance of irradiated CVD diamond micro-strip sensors
LO GIUDICE, Alessandro;MANFREDOTTI, Claudio;VITTONE, Ettore;
2002-01-01
Abstract
CVD diamond detectors are of interest for charged particle detection and tracking due to their high radiation tolerance. In this article, we present, for the first time, beam test results from recently manufactured CVD diamond strip detectors and their behavior under low doses of electrons from a beta-source and the performance before and after intense (> 10(15)/cm(2)) proton- and pion-irradiations. We find that low dose irradiation increase the signal-to-noise ra io (pumping of the signal) and slightly deteriorate the spatial resolution. Intense irradiation with protons 2.2 x 10(15) p/cm(2) lowers the signal-to-noise ratio slightly. Intense irradiation with pions 2.9 x 10(15) pi/cm(2) lowers the signal-to-noise ratio more. The spatial resolution of the diamond sensors improves after irradiations. (C) 2002 Published by Elsevier Science B.V.
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