Jun 13 – 17, 2022
Institute of Experimental and Applied Physics, CTU in Prague
Europe/Prague timezone
Deadline for submission of the conference proceedings: September 18, 2022 (extended)!

Constraining neutrinoless double beta decay matrix elements from ab initio nuclear theory

Jun 16, 2022, 5:00 PM
30m
Conference room (Institute of Experimental and Applied Physics, CTU in Prague)

Conference room

Institute of Experimental and Applied Physics, CTU in Prague

Husova 240/5, 11000 Prague 1
Oral presentation Theory

Speaker

Antoine Belley (TRIUMF Vancouver)

Description

As experiments searching for neutrinoless double beta decay are in the planning phase of a next generation with hopes to completely probe the inverted mass hierarchy, the need for reliable nuclear matrix elements, which govern the rate of this decay, is stronger than ever. Since a large discrepancy is found when computing this quantity with different nuclear models, a large unknown still exists on the sensitivity of these experiments to the effective neutrino mass. We tackle this problem from first principle using the valence-space in medium similarity renormalization group ab initio method, which allows to assign rigorous theoretical uncertainties. We present converged results for isotopes of interests for mass number up to A=136 with multiple nuclear interactions obtain from chiral effective field theory. Furthermore, we study correlations with other observables such as the double Gamow-Teller giant resonance in an attempt to betterr constrain our uncertainties.

Primary author

Antoine Belley (TRIUMF Vancouver)

Presentation materials