E. Lange

Prospects of CsI(Tl)-photodiode detectors for low-level spectroscopy

Abstract A detailed study of the potential of CsI(Tl)—photodiode detectors for applications in low-level spectroscopy was carried out. The energy resolution of small crystals (few cm 3 ) for γ-rays in the MeV range can be parametrized as ΔE (FWHM)/ E = 5% × E [MeV] −0.69 . In kg size detectors, where resolution is limited by electronic noise, the use of new large-area low-capacitance pin Si photodiodes led to a significantly improved energy precision of ΔE (FWHM) = 150 keV, nearly independent of energy. Unfavourable light collection geometries, like in large-acceptance well detectors, do not substantially degrade the energy measurement. Scintillation light yields vary slowly with temperature and time so excellent long-term stability can be expected. For the first time a systematic investigation of inherent crystal radioactivity was possible due to the improved energy resolution obtained with large crystals. Six α-active radionuclides of the Th-decay-chain were identified. The isotopes are in equilibrium with each other but not in secular equilibrium with 232 Th. The total α-activity varies from crystal to crystal between 2.4 and 5.5 decays/h cm 3 ) corresponding to 228 Th concentrations of 1.1–2.5×10 −18 g/g. Activity from 238 U-chain isotopes is not sent at a level two orders of magnitude below the Th-activity. Prospects are discussed for further improved energy resolution and for applications in low-level spectroscopy, specifically for a search for 100 Mo double beta decay.