The Z'-boson of the B-L Supersymmetric Standard Model and its Large Hadron Collider Searches

Abstract

We discuss how the Z'-boson of the B-L Supersymmetric (SUSY) Standard Model (BLSSM) could evade the current lower bound of around 5 TeV on the mass of such a resonance (of sequential nature) from the Large Hadron Collider (LHC) by a significant margin. This happens when the experimental sensitivities are critically impaired as the Z'-boson becomes `fat' or develops some leptophobia or possesses an optimally large decay Branching Ratio (BR) to BLSSM-specific states (including the SUSY ones) or when some or all of these are at play simultaneously. We describe how such a Z'-boson could acquire there features while still respecting the non-negotiable precision constraints from the LEP and the SLC experiments running at the Z-pole as well as those from the multi-purpose experiments at the LHC that search for such a resonance. We explore the interplay of the aforementioned phenomena and identify the regions of the BLSSM parameter space that give rise to the described situation by carrying out a thorough scan of it. We find that MZ' masses as low as 2.24 TeV may still be allowed in the BLSSM under favorable circumstances.