Tomographic beta-gamma spectroscopy of nuclear beta decay
Abstract
Nuclear β decay, a sensitive probe of nuclear structure and weak interactions, has become a precision test bed for physics beyond the Standard Model, driven by recent advances in spectrometric techniques. Here we introduce tomographic β-γ spectroscopy (TBGS) of nuclear β decay, a method that detects the energies of β, γ, and internal conversion electrons while simultaneously reconstructing the energy deposition vertices. Using the PandaX-4T detector operated as a TBGS, we obtain a precise and unbiased decay scheme of 214Pb, a key background isotope in searches for dark matter and Majorana neutrinos. For the first time, transitions of 214Pb to both the ground and excited states of 214Bi are measured concurrently, revealing discrepancies in branching ratios of up to 4.7σ relative to previous evaluations. Combined with state-of-the-art theoretical spectral-shape calculations, these results establish a new benchmark for background modelling in rare-event searches and highlight the potential of TBGS as a versatile tool for fundamental physics and nuclear applications.
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