Response of CVD diamond detectors to alpha radiation

This article describes some results from an experiment with CVD diamond films used as alpha particle detectors. It demonstrates that bulk polarization can be effectively stopped within a reasonable rime interval, This will enable detector calibration and quantitative measurement. A possible mechanism for the observed polarization quenching is discussed. It involves two types of carrier traps and a tentative band-gap model derived from the results of photoconductive current measurements. The experiment was set up mainly to investigate alpha detection properties of polycrystalline diamond films grown by the technique of microwave plasma enhanced chemical vapor deposition. For comparison, two commercially purchased diamond wafers were also investigated, i.e., one grown by the DC are jet method, and the other, a type-IIa natural diamond wafer (not preselected). The best response to cc particles was obtained using diamond thin-films grown by the microwave PECVD method, followed by the type-IIa natural diamond, and finally, the CVD diamond grown by the DC are jet technique.