Radiative corrections to two-neutrino double-beta decay

Abstract

We use heavy-nucleus effective field theory to compute radiative corrections to two-neutrino double-β decay (2ββ). Our main result is the first derivation of a universal radiative-correction factor for double-weak decays -- the analogue of the Sirlin function in single-β decay -- independent of nuclear matrix elements and excitation energies. This "double-weak Sirlin function" depends on the individual electron energies as well as their relative angle and differs significantly from the approximation obtained by summing two single-β decay Sirlin functions. In addition, we calculate the nuclear-structure-dependent component of the radiative corrections and find that they can still be neglected at current experimental sensitivities. On the other hand, the double-weak Sirlin function induces distortions of the electron energies and angular spectra that are comparable in size to the leading nuclear-structure corrections parametrized by the ratio of nuclear matrix elements, 31. Our results indicate that extractions of nuclear structure information and tests of the Standard Model from high-precision 2ββ measurements must include double-weak radiative corrections, implying that recent extractions of 31 should be revisited.

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