Abstract
Highly energetic proton/electron beam fixed-target experiments extend an opportunity to probe the sub-GeV dark matter and associated interactions. In this work, we have explored the sensitivity of DUNE (Deep Underground Neutrino Experiment) for sub-GeV leptophobic dark matter, i.e., this dark matter barely couples with the leptons. Baryon number gauge theory can predict the existence of leptophobic cold dark matter particle candidates. In our work, the dark matter candidate is considered to be scalar whose mass is defined by the symmetry breaking of new baryonic gauge group U 1 B . In this scenario, a light scalar dark matter couples with the standard model candidates via vector boson mediator V B which belongs to the baryonic gauge group U 1 B . This leptophobic dark matter dominantly couples to the quarks. Under this scenario, new parameter space for α B is explored by DUNE for leptophobic dark matter candidates. This new parameter space allowed α B to get a lower value than the present exiting constraint value of α B , i.e., 1 0 − 6 .
Highlights
Existence of dark matter (DM) particle is supported by many gravitational phenomena in astrophysics and cosmology, but the nature of the dark matter is still to be discovered
The model considered for sub-GeV leptophobic scalar DM candidates, which are charged under a new baryonic gauge group Uð1ÞB, couples with the standard model (SM) particles through a new vector boson mediator VB which dominantly interacts with quarks
The neutral mesons decay into vector mediator VB which further decays into a pair of DM candidates in the center of mass frame of VB
Summary
Existence of dark matter (DM) particle is supported by many gravitational phenomena in astrophysics and cosmology, but the nature of the dark matter is still to be discovered. These scenarios need to be probed for imposing better constraints on DM parameter space In one of these scenarios, DM candidates of hidden sector interacts with the SM particles via a new massive vector gauge boson mediator ðVBÞ of new baryonic gauge group Uð1ÞB. This vector gauge boson VB dominantly couples with the quarks and is called leptophobic dark matter. In our work, using fixed-target experiment in beam dump mode, we have estimated the sensitivity of DUNE (Deep Underground Neutrino Experiment) [15] for capturing the signatures of leptophobic dark matter.
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