Discovery probabilities of Majorana neutrinos based on cosmological data

M. Agostini; G. Benato; S. Dell'Oro; S. Pirro; F. Vissani

arXiv:2012.13938·hep-ph·March 3, 2021

Discovery probabilities of Majorana neutrinos based on cosmological data

M. Agostini, G. Benato, S. Dell'Oro, S. Pirro, F. Vissani

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TL;DR

This paper evaluates how cosmological data influence the likelihood of detecting Majorana neutrinos via neutrinoless double-beta decay, providing a probabilistic framework and new visualization tools for the community.

Contribution

It introduces a probabilistic approach to assess Majorana neutrino discovery chances based on cosmological measurements and presents a novel graphical representation for this analysis.

Findings

01

Cosmological data significantly constrain Majorana neutrino mass predictions.

02

The paper quantifies discovery probabilities for neutrinoless double-beta decay.

03

A new graphical tool aids in visualizing discovery likelihoods.

Abstract

We discuss the impact of the cosmological measurements on the predictions of the Majorana mass of the neutrinos, the parameter probed by neutrinoless double-beta decay experiments. Using a minimal set of assumptions, we quantify the probabilities of discovering neutrinoless double-beta decay and introduce a new graphical representation that could be of interest for the community.

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