Complementarity between neutrinoless double beta decay and collider searches for heavy neutrinos in composite-fermion models

Abstract

Composite-fermion models predict excited quarks and leptons with mass scales which can potentially be observed at high-energy colliders like the LHC; the most recent exclusion limits from the CMS and ATLAS Collaborations corner excited-fermion masses and the compositeness scale to the multi-TeV range. At the same time, hypothetical composite Majorana neutrinos would lead to observable effects in neutrinoless double beta decay (0 β β) experiments. In this work, we show that the current composite-neutrino exclusion limit MN>4.6 TeV, as extracted from direct searches at the LHC, can indeed be further improved to MN>8.8 TeV by including the bound on the nuclear transition 136Xe 136Ba +2e-. Looking ahead, the forthcoming HL-LHC will allow probing a larger portion of the parameter-space, nevertheless, it will still benefit from the complementary limit provided by 0 β β future detectors to explore composite-neutrino masses up to 12.6 TeV.