Abstract
We present the development of a dual-detector system designed for investigating the spectral shape of forbidden non-unique beta decays. Two PbMoO4 scintillating crystals were carefully prepared for heat and light detection at milli-Kelvin (mK) temperatures. Notably, one crystal was synthesized using archaeological lead, while the other was composed of natural modern lead. The significance of employing two crystals lies in their identical dimensions and proximity, resulting in similar environmental background exposure. Their distinct internal radioactivities, particularly associated with 210Pb, introduce a distinguishing factor between the spectra measured in the two detectors. Our detection method includes achieving clear particle identification through the relative amplitudes of light and heat signals for both crystals. This report compares the electron-induced spectra within energy regions both below and above the endpoint of 210Bi beta decay. This comparative study provides valuable insights into an exact measurement of the 210Bi decay spectrum, forbidden non-unique beta decay.
Original language | English |
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Pages (from-to) | 328-335 |
Number of pages | 8 |
Journal | Journal of Low Temperature Physics |
Volume | 216 |
Issue number | 1-2 |
DOIs | |
State | Published - Jul 2024 |
Keywords
- Low-temperature detectors
- Magnetic micro calorimeter
- PbMoO
- Phonon-scintillation detector
- Rare process experiment
- β-decay