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Precision analysis of pseudoscalar interactions in neutron beta decays

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Abstract We analyze the contributions of the one–pion–pole (OPP) exchange, caused by strong low–energy interactions, and the pseudoscalar interaction beyond the Standard Model (BSM) to the correlation coefficients of the… Click to show full abstract

Abstract We analyze the contributions of the one–pion–pole (OPP) exchange, caused by strong low–energy interactions, and the pseudoscalar interaction beyond the Standard Model (BSM) to the correlation coefficients of the neutron β − –decays for polarized neutrons, polarized electrons and unpolarized protons. The strength of contributions of pseudoscalar interactions is defined by the effective coupling constant C p s = C p s ( OPP ) + C p s ( BSM ) . We show that the contribution of the OPP exchange is of order C p s ( OPP ) ∼ − 10 − 5 . The effective coupling constant C p s ( BSM ) of the pseudoscalar interaction BSM can be in principle complex. Using the results, obtained by Gonzalez-Alonso et al. (2019) [34] we find that the values of the real and imaginary parts of the effective coupling constant C p s ( BSM ) are constrained by − 3.5 × 10 − 5 Re C p s ( BSM ) 0 and Im C p s ( BSM ) − 2.3 × 10 − 5 , respectively. The obtained results can be used as a theoretical background for experimental searches of contributions of interactions BSM in asymmetries of the neutron β − –decays with a polarized neutron, a polarized electron and an unpolarized proton at the level of accuracy of a few parts of 10 − 5 or even better Abele (2016) [40] .

Keywords: analysis pseudoscalar; bsm; precision analysis; coupling constant; effective coupling; pseudoscalar interactions

Journal Title: Nuclear Physics B
Year Published: 2020

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