Development of CVD diamond radiation detectors

Diamond is a nearly ideal material for detecting ionizing radiation. Its outstanding radiation hardness, fast charge collection and low leakage current allow a diamond detector to be used in high radiation, high temperature and in aggressive chemical media. We have constructed charged particle detectors using high quality CVD diamond. Characterization of the diamond samples and various detectors are presented in terms of collection distance, d = mu E tau, the average distance electron-hole pairs move apart under the influence of an electric field, where mu is the sum of carrier mobilities, E is the applied electric held, and tau is the mobility weighted carrier lifetime. Over the last two years the collection distance increased from similar to 75 mu m to over 200 mu m. With this high quality CVD diamond a series of micro-strip and pixel particle detectors have been constructed. These devices were tested to determine their position resolution and signal to noise performance. Diamond detectors were exposed to large fluences of pions, protons and neutrons to establish their radiation hardness properties. The results of these tests and their correlation with the characterization studies are presented.