We studied the sensitivity of a radiation detector based on metastable superconducting grains. Radiation is detected by the phase transition from the superconducting to the normalhyphen;conducting state of a grain induced by energy absorption. Metastable states of tin and cadmium grains were tested. The phase boundary of a large sample of grains was found to be broadened due to variations of the phase diagrams of single grains. Therefore, the use of superconductors with a low critical temperatureTcand an operation temperature close toTcseems advisable to increase the sensitivity of the detector. For Cd grains a sensitivity normalized to the grain volume of 12 eV/mgr;m3was achieved for the detection of ggr; rays. These grains showed an instability in the superconducting to normalhyphen;conducting phase transition for temperatures below 350 mK.
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