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A possible solution to the gallium anomaly moving beyond the leptonic wave function factorization

Published 23 Dec 2025 in hep-ph, hep-ex, nucl-ex, and nucl-th | (2512.20560v1)

Abstract: For over thirty years, a $\sim20\%$ deficit, now exceeding $5σ$, has persisted between measured and predicted neutrino capture rates on ${71}$Ga, as observed in radioactive source experiments (namely GALLEX, SAGE, and more recently BEST) using ${51}$Cr and ${37}$Ar. This long-standing discrepancy, referred to as the gallium anomaly, has posed a significant challenge to our understanding of both experimental methods and theoretical predictions. In this work, we revisit the theoretical calculation of the neutrino capture cross-section by moving beyond the standard treatment of the leptonic wave functions, revealing limitations in the commonly used factorization approach based on the detailed balance principle. Incorporating phenomenologically constrained Gamow-Teller transition densities, able to correctly reproduce the precisely measured half-life of ${71}{\textrm{Ge}}$, we find that the revised cross-section can be significantly reduced, potentially resolving the gallium anomaly without invoking new physics.

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