期刊
RADIATION PHYSICS AND CHEMISTRY
卷 164, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.radphyschem.2019.108357
关键词
CVD diamond based radiation detector; Alpha spectroscopy; Dosimetric properties; Carbon electrode; PLD
Using amorphous Carbon blended with Nickel (C/Ni) as electrodes for a polycrystalline diamond radiation detector (PC-C/Ni) was demonstrated previously as a novel technique to produce near-tissue equivalent X-ray dosimeters. In this project, we introduce the first characterisation of a (Chemical Vapour Deposited) single crystal diamond sandwich detector (with thickness of 0.4 mm) fabricated with this technique, labelled SC-C/Ni. To examine the performance of pulsed laser deposition (PLD) C/Ni as an electrode, alpha spectroscopy measurements and X-ray induced photocurrent measurements were studied as a function of the applied bias at room temperature and compared with those of the aforementioned PC-C/Ni. The alpha particle spectroscopy measurement data allows us to differentiate between electron and hole contributions to the charge transport signal, whilst the X-ray data was investigated in terms of dose rate-linearity, sensitivity, signal to noise ratio (SNR) and photoconductive gain. In the case of electron sensitive alpha induced signals, a Charge Collection Efficiency (CCE) higher than 90% has been observed at a bias of -40 V and 100% CCE at similar to 300 V, with energy resolution of similar to 3% for 5.48 MeV alpha particles. The sample showed very poor spectroscopy performance for hole sensitive signals up to 200 V. The X-ray induced photocurrents show a high SNR of similar to 7.3 x 10(3), an approximately linear relationship between the photocurrent versus dose rate and a sensitivity of 4.87 mu C/Gy.mm(3). The photoconductive gain of SC-C/Ni is calculated to be similar to 20, this gain calculation might be explained by trapping effects as investigated in the alpha spectroscopy measurements.
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