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Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/217973
A pathway to unveiling neutrinoless ββ decay nuclear matrix elements via γγ decay
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We investigate the experimental feasibility of detecting second-order double-magnetic dipole ( γγ - M1M1 ) decays from double isobaric analog states (DIAS), which have recently been found to be strongly correlated with the nuclear matrix elements of neutrinoless ββ decay. Using the nuclear shell model, we compute theoretical branch ing ratios for γγ - M1M1 decays and compare them with other competing processes, such as single- γ decay andproton emission, which represent the dominant decay channels. We also estimate the potential competition from internal conversion and internal pair creation, which can ifluence the decay dynamics. Additionally, we pro pose an experimental strategy based on using LaBr 3 scintillators to identify γγ - M1M1 transitions from the DIAS amidst the background of the competing processes. Our approach emphasizes the challenges of isolating the rare γγ - M1M1 decay and suggests ways to enhance the experimental detection sensitivity. Our simulations suggest that it may be possible to access experimentally γγ - M1M1 decays from DIAS, shedding light on the neutrinoless ββ decay nuclear matrix elements.
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ROMEO, Beatriz, STRAMACCIONI, Damiano, MENÉNDEZ SÁNCHEZ, Javier, VALIENTE-DOBÓN, J.j.. A pathway to unveiling neutrinoless ββ decay nuclear matrix elements via γγ decay. _Physics Letters B_. 2024. Vol. 860. [consulta: 31 de gener de 2026]. ISSN: 0370-2693. [Disponible a: https://hdl.handle.net/2445/217973]