G. Dambier scite author profile

The only naturally occurring isotope of bismuth, 209Bi, is commonly regarded as the heaviest stable isotope. But like most other heavy nuclei abundant in nature and characterized by an exceptionally long lifetime, it is metastable with respect to alpha-decay. However, the decay usually evades observation because the nuclear structure of 209Bi gives rise to an extremely low decay probability and, moreover, generates low-energy alpha-particles difficult to detect. Indeed, dedicated experiments attempting to record the alpha-decay of 209Bi in nuclear emulsions failed. However, scintillating bolometers operated at temperatures below 100 mK offer improved detection efficiency and sensitivity, whereas a broad palette of targets could be available. Here we report the successful use of this method for the unambiguous detection of 209Bi alpha-decay in bismuth germanate detectors cooled to 20 mK. We measure an energy release of 3,137 +/- 1 (statistical) +/- 2 (systematic) keV and a half-life of (1.9 +/- 0.2) x 10(19) yr, which are in agreement with expected values.

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Scintillating and particle discrimination properties of selected crystals for low-temperature bolometers: from LiF to BGO

Coron

Dambier

Leblanc

et al. 2004

Nuclear Instruments and Methods in Physics Research Section A:

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G. Dambier

Experimental detection of α-particles from the radioactive decay of natural bismuth

Scintillating and particle discrimination properties of selected crystals for low-temperature bolometers: from LiF to BGO

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