Hunting down massless dark photons in kaon physics
arXiv:1705.03470 · doi:10.1103/PhysRevLett.119.031801
Abstract
If dark photons are massless, they couple to standard-model particles only via higher dimensional operators, while the kinetic mixing with photons, which motivates most of the current experimental searches, is absent. We consider the effect of possible flavor-changing magnetic-dipole couplings of massless dark photons in kaon physics. In particular, we study the branching ratio for the process $K^+\rightarrow Ï^+Ï^0 \bar γ$ with a simplified-model approach, assuming the chiral quark model to evaluate the hadronic matrix element. Possible effects in the $K^0$-$\bar K^0$ mixing are taken into account. We find that branching ratios up to $O(10^{-7})$ are allowed---depending on the dark-sector masses and couplings. Such large branching ratios for $K^+\rightarrow Ï^+Ï^0 \bar γ$ could be of interest for experiments dedicated to rare $K^+$ decays like NA62 at CERN, where $\bar γ$ can be detected as a massless invisible system.
same as the published PRL version, 5 pages, 3 figures, a few comments and new references added