CP asymmetries in D K0S,LP and D K0S,LV decays

Abstract

D meson decays into neutral kaons involve both Cabibbo-favored and doubly Cabibbo-suppressed amplitudes as well as final-state kaon mixing, providing abundant sources of CP violation. In this work, we analyze CP asymmetries in the D K0S,LP and D K0S,LV decays, where P and V denote pseudoscalar and vector mesons respectively. The formulas of the time-dependent and time-integrated CP asymmetries in these modes are derived, in which the D0- D0 mixing effects and the K0L modes are considered for the first time. The hadronic parameters that determine CP asymmetries are extracted by the global fit of branching fractions within the topological diagram approach. A significant result is that the tension between theoretical predictions and experimental data for the KS0-KL0 asymmetries in D0 KS,L0ω and D0 KS,L0ϕ modes is mitigated. The CP-violating effects arising from the interference between Cabibbo-favored and doubly Cabibbo-suppressed amplitudes with neutral kaon mixing could reach to O(10-3) order in the D+ K0Sπ+, D+s K0SK+, D0 K0Sρ0, and D0 K0Sϕ modes. The difference between the CP asymmetries in the D+ K0Sπ+ and D+s K0SK+ modes is available on LHCb and Belle II in the near future.