Pandax-4T limits on Z mass in 3-3-1LHN model
Abstract
The framework of the so-called 3-3-1LHN model may accommodate two different, but viable, scenarios of dark matter: one involving a heavy Dirac neutrino , N1, or another having a scalar, φ, as dark matter candidate. In both cases the dark matter phenomenology, relic abundance and scattering cross section off of nuclei, is controlled by exchange of Z. We then investigate the impact on the parameter space (MZ\,,\,M(N1\,,\, φ)) due to the recent Pandax-4T experimental result in both scenarios. First, the Pandax-4T experiment excludes scenarios with dark matter mass below 1.9 TeV. Concerning Z, we find the lower bound MZ> 4.1 TeV for the case when N1 as the dark matter and MZ>5.7 TeV for the other case. This implies that the 3-3-1 symmetry is spontaneously broken above 10 TeV scale. We also comment on the contributions to the relic abundance of processes involving flavor changing neutral current mediated by Z.
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