Hadrophilic dark sectors at the Forward Physics Facility

Models with light dark sector and dark matter particles motivate qualitatively new collider searches. Here we carry out a comprehensive study of hadrophilic models with U(1)(B) and U(1)(B-3L tau) gauge bosons coupled to light dark matter. The new mediator particles in these models couple to quarks, but have suppressed couplings to leptons, providing a useful foil to the well-studied dark photon models. We consider current bounds from accelerator and collider searches, rare anomaly-induced decays, neutrino nonstandard interactions, and dark matter direct detection. Despite the many existing constraints, these models predict a range of new signatures that can be seen in current and near future experiments, including dark gauge boson decays to the hadronic final states pi(+)pi(-)pi(0), pi(0)gamma, K+K-, and KSKL in FASER at LHC Run 3, enhancements of nu(tau) scattering rates in far-forward neutrino detectors, and thermal dark matter scattering in FLArE in the HL-LHC era. These models therefore motivate an array of different experiments in the far-forward region at the LHC, as could be accommodated in the proposed Forward Physics Facility.

Automated summary

This comprehensive study explores hadrophilic models with U(1)(B) and U(1)(B-3L tau) gauge bosons coupled to light dark matter. The study reveals that these models predict a range of new signatures that can be observed in current and near future experiments, providing new directions and clues for further particle physics research.