Nuclear ab initio calculations of 6He β-decay for beyond the Standard Model studies

Petr Navratil; Ayala Glick-Magid; Christian Forssen; Daniel Gazda; Doron Gazit; Peter H Gysbers

Nuclear ab initio calculations of 6He β-decay for beyond the Standard Model studies

ORAL · Invited

Abstract

Precision measurements of β-decay observables offer the possibility to search for deviations from the Standard Model. A possible discovery of such deviations requires accompanying first-principles calculations. We will present a computation of the nuclear structure corrections for the β-decay of ⁶He which is of central interest in several experimental efforts. We employ the impulse approximation together with wave functions calculated using the ab initio no-core shell model with potentials based on chiral effective field theory. We find that nuclear corrections, which we compute within the sensitivity of future experiments, create significant deviation from the naive Gamow-Teller predictions, making their accurate assessment essential in searches for physics beyond the Standard Model.

Oct. 27, 2022, 10:00 AM – Oct. 27, 2022, 10:36 AM

Publication: Ayala Glick-Magid, Christian Forssen, Daniel Gazda, Doron Gazit, Peter Gysbers, Petr Navratil, "Nuclear ab initio calculations of 6He beta-decay for beyond the standard model studies," arXiv:2107.10212. A. Glick-Magid, D. Gazit, "A formalism to assess the accuracy of nuclear-structure weak interaction effects in precision β-decay studies," arXiv:2107.10588. Petr Navratil, "Translationally invariant matrix elements of general one-body operators," Phys. Rev. C 104, 064322 (2021).

Presenters

Petr Navratil

TRIUMF

Authors

Petr Navratil

TRIUMF
Ayala Glick-Magid

Hebrew University of Jerusalem
Christian Forssen

Chalmers Univ of Tech
Daniel Gazda

NPI Rez
Doron Gazit

Hebrew University of Jerusalem
Peter H Gysbers

University of British Columbia / TRIUMF