Abstract
Motivated by grand unification considerations, we analyse a simple extension of the minimal supersymmetric standard model with additional pairs of vector-like chiral supermultiplets. We focus on the so-called LND setup, which enlarges the particle content of the minimal model by two vector-like pairs of weak doublets (one pair of leptons and one pair of down-type quarks) and one vector-like pair of neutrino singlets. Imposing collider and low-energy constraints, sneutrinos and neutralinos both emerge as possible lightest supersymmetric particles and thus dark matter candidates. We perform a complete analysis of the dark sector and study the viability of these neutralino and sneutrino dark matter options. We show that cosmological considerations (the dark matter relic abundance and its direct and indirect detection signals) restrict neutralino dark matter to exhibit similar properties as in the minimal supersymmetric standard model, and impose the sneutrino dark matter candidate to be singlet-like, rather than doublet-like. Allowing the mixing of the fermionic component of the new supermultiplets with the Standard Model third generation fermions, we moreover demonstrate the existence of collider signals that are distinguishable from other, more minimal, supersymmetric scenarios by virtue of an enhanced production of events enriched in tau leptons. We furthermore show that this signature yields robust LHC signals, that could potentially be differentiated from the background in future data.
Highlights
During the past few decades, supersymmetry has gained the status of one of the best theoretically motivated scenarios for physics beyond the standard model (SM)
The parameter space is defined by the 25 new physics parameters and one sign is listed in Table I, where we summarize the free parameters and the range over they are scanned
In this work we presented an analysis of an extension of the minimal supersymmetric standard model (MSSM) along lines suggested by supersymmetric grand unification
Summary
During the past few decades, supersymmetry has gained the status of one of the best theoretically motivated scenarios for physics beyond the standard model (SM) Under specific conditions it can address the hierarchy problem, achieve gauge coupling unification and, when R-parity is conserved, provide natural dark matter candidate(s). Under a specific configuration, it could give rise to additional contributions to the anomalous magnetic moment of the muon, and large mixings between the new fermions and the third generation SM fermions are allowed and can lead to distinctive signals at the LHC With this as motivation, we expect the phenomenology of this model to differ from that of the QUE and QDEE models, and in this paper we perform an analysis of the dark matter constraints and collider implications for this model.
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