SU(3) in D decays: From 30\% symmetry breaking to 10-4 precision

Abstract

Flavor SU(3) symmetry, including 30\% first order SU(3) breaking, has been shown to describe adequately a vast amount of data for charmed meson decays to two pseudoscalar mesons and to a vector and a pseudoscalar meson. We review a recent dramatic progress achieved by applying a high order perturbation expansion in flavor SU(3) breaking and treating carefully isospin breaking. We identify a class of U-spin related D0 decays to pairs involving charged pseudoscalar or vector mesons, for which high-precision nonlinear amplitude relations are predicted. Symmetry breaking terms affecting these relations are fourth order U-spin breaking, and terms which are first order in isospin breaking and second order in U-spin breaking. The predicted relations are shown to hold experimentally at a precision varying between 10-3 and 10-4, in agreement with estimates of high order terms. We also discuss amplitude relations for D0 decays to pairs of neutral pseudoscalar mesons, and relations for rate asymmetries between decays involving K0S and K0L which hold up to second order U-spin breaking.