Abstract
Abstract Despite many tests, even the Minimal Manifest Left-Right Symmetric Model (MLRSM) has never been ultimately confirmed or falsified. LHC gives a new possibility to test directly the most conservative version of left-right symmetric models at so far not reachable energy scales. If we take into account precise limits on the model which come from low energy processes, like the muon decay, possible LHC signals are strongly limited through the correlations of parameters among heavy neutrinos, heavy gauge bosons and heavy Higgs particles. To illustrate the situation in the context of LHC, we consider the “golden” process pp → e + N . For instance, in a case of degenerate heavy neutrinos and heavy Higgs masses at 15 TeV (in agreement with FCNC bounds) we get σ(pp → e + N ) > 10 fb at $$ \sqrt {s} = 14\,{\text{TeV}} $$ which is consistent with muon decay data for a very limited W 2 masses in the range (3008 GeV, 3040 GeV). Without restrictions coming from the muon data, W 2 masses would be in the range (1.0 TeV, 3.5 TeV). Influence of heavy Higgs particles themselves on the considered LHC process is negligible (the same is true for the light, SM neutral Higgs scalar analog). In the paper decay modes of the right-handed heavy gauge bosons and heavy neutrinos are also discussed. Both scenarios with typical see-saw light heavy neutrino mixings and the mixings which are independent of heavy neutrino masses are considered. In the second case heavy neutrino decays to the heavy charged gauge bosons not necessarily dominate over decay modes which include only light, SM-like particles.
Highlights
Taking such a restricted model, easier its parametrization and less extra parameters are involved in phenomenological studies
If we take into account precise limits on the model which come from low energy processes, like the muon decay, possible LHC signals are strongly limited through the correlations of parameters among heavy neutrinos, heavy gauge bosons and heavy Higgs particles
We show the interplay between fermion-boson heavy spectrum of the Manifest Left-Right Symmetric Model (MLRSM) model in the muon decay
Summary
1, where q is the transfer of four momentum and M is the mass of the gauge boson involved in the interactions. VR = 6398 GeV (MW2 ≃ 3 TeV) and muon data in the range ∆r0 ± 3∆rσ restricts allowed heavy neutrino masses to the region 100 ≤ MN ≤ 2210 [in GeV] (it means that (hM )min ≃ 0.01). If we start with some other value of vR instead (vR)B, e.g. vR = 6500 GeV (MW2 ≃ 3055 GeV) and muon data in the range ∆r0 ± 3∆rσ restricts allowed heavy neutrino masses to the region 2654 ≤ MN ≤ 3232 GeV. The most important for the LHC phenomenology is the fact that still light (at the level of hundreds of GeV) heavy neutrinos are allowed in the framework of MLRSM
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