Reinterpreting the weak mixing angle from atomic parity violation in view of the Cs neutron rms radius measurement from COHERENT

Abstract

Using the model independent average neutron rms radius of 133Cs and 127I obtained from the analysis of the coherent elastic neutrino-nucleus scattering data of the COHERENT experiment, we remove the long-standing 1.5\,σ tension between the Standard Model prediction and the weak mixing angle measurement from the atomic parity violation (APV) in caesium. The updated APV result becomes 2 W=0.239+0.006-0.007, to be compared with the Standard Model prediction at low momentum transfer, 2 WSM = 0.23857(5). Moreover, exploiting the fact that the APV result is highly sensitive to the caesium neutron rms radius, Rn, and assuming that the Standard Model is correct, we combine the APV and the COHERENT measurements in order to get a better determination of Rn. The value of Rn=5.42 0.31\,fm is obtained, improving significantly the current uncertainty. This result allows to infer a meaningful value of the caesium neutron skin, the difference between the neutron and proton distribution radii, equal to Rnp=0.62 0.31\,fm, showing for the first time a 2\, σ deviation from zero.