Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
701337 | Diamond and Related Materials | 2007 | 4 Pages |
The charge transport properties of virgin and heavily irradiated intrinsic Single-Crystal CVD-Diamond Detectors (SC-CVD-DD) are discussed by means of the Transient-Current Technique (TCT), which proved to be a sensitive tool to detect the first changes of the detector's performance. Charge-carrier mobilities μe = 1300–3100 cm2/V s, μh = 2400 cm2/V s and effective deep-trapping lifetimes τeff-h = 300–900 ns, τeff-e = 160–360 ns were measured in the non-irradiated state, decreasing slightly after irradiation by a fluency F > 1013 p26MeV cm− 2. The carriers drift velocity remained almost unchanged after irradiation, indicating the creation of mainly neutral defects. After exposure to fluency above 1016 p cm− 2 however, TC signals were not detectable with the available broadband electronics. A significant improvement was observed after annealing at 1000 °C, and almost complete restoration was obtained by priming with 90Sr-electrons. Optical absorption (OA) spectra confirmed the degradation of the detector performance after exposure to increasing particle fluencies, showing deviations from the intrinsic ‘edge absorption’ shape around 5.3 eV that was observed before irradiation.