First ab initio calculations of first-forbidden β transitions in the reactor antineutrino anomaly

Abstract

Forbidden β transitions are important for understanding the reactor antineutrino anomaly. Starting from chiral two- plus three-nucleon forces, we have derived the valence-space effective Hamiltonian and effective operators of first-forbidden transitions using the many-body perturbation theory. 20 dominant first-forbidden transitions have been investigated, which provide important contributors to the reactor antineutrino spectrum anomaly. Calculated ft values are in reasonable agreement with experimental data. Obtained shape factors exhibit significant deviations from the values approximated with forbidden transitions treated as allowed transitions. The ``5 MeV bump'' observed in the experimental 235U-fission antineutrino spectrum was discussed with self-consistent shape factors obtained in the present ab initio calculations. Unlike phenomenological models that require empirical quenching factors to reproduce β-decay data, the present ab initio calculations do not need to introduce quenching factors for calculations of the first-forbidden transitions.