Corrections to Fermi's Golden Rule in $Ï\to K\bar{K}$ Decays
arXiv:hep-ph/0112170 · doi:10.1016/S0370-2693(01)01520-9
Abstract
We analyze the decays $Ï\to K\bar{K}$ utilizing a formulation of transition rates which explicitly exhibits corrections to Fermi's Golden Rule. These corrections arise in systems in which the phase space and/or matrix element varies rapidly with energy, as happens in $Ï\to K\bar{K}$, which is just above threshold. We show that the theoretical corrections resolve a puzzling $5Ï$ discrepancy between theory and experiment for the branching ratio $R = Î(Ï\to K^+K^-)/Î(Ï\to K^0\bar{K}^0)$.