Particle physics today faces the challenge of explaining the mystery of dark matter, the origin
of matter over anti-matter in the Universe, the origin of the neutrino masses, the apparent …

High energy collisions at the High-Luminosity Large Hadron Collider (LHC) produce a large
number of particles along the beam collision axis, outside of the acceptance of existing LHC …

The initiation of a novel neutrino physics program at the Large Hadron Collider (LHC) and
the purpose-built Forward Physics Facility (FPF) proposal have motivated studies exploring …

The recent measurement of the CP asymmetry in the decay D→ K+ K-by LHCb, combined
with Δ ACP, evidences a sizable CP asymmetry in the decay D→ π+ π-, which requires a …

Despite being mostly secluded, dark sector particles may feebly interact with photons via a
small mass-dimension 4 millicharge, a mass-dimension 5 magnetic and electric dipole …

Light sub-GeV dark matter (DM) constitutes an underexplored target, beyond the optimized
sensitivity of typical direct DM detection experiments. We comprehensively investigate …

We reconsider the case of light vectors coupled to anomalous fermionic currents, focusing
on the interplay between ultraviolet and infrared dynamics. Taking as a general framework …

The LHC produces an intense beam of highly energetic neutrinos of all three flavors in the
forward direction, and the Forward Physics Facility (FPF) has been proposed to house a …

The FASER detector is designed to search for light weakly interacting new particles
decaying into charged final states at the LHC. While the first physics data will be taken at the …

We consider an experiment to search for dark sector particles in invisible (or semi-invisible)
decays of neutral mesons M 0= π 0, η, η′, ω, f 2 (1270), which produced the charge …