Flavor Symmetry, K0-K0 Mixing and New Physics Effects on CP Violation in D and Ds Decays
Abstract
Flavor symmetry and symmetry breaking, K0-K0 mixing and possible effects of new physics on CP violation in weak decay modes D KS,L + X, (KS,L + π0)K* + X (for X =π, , a1) and Ds KS,L + Xs, (KS,L +π0)K* + Xs (for Xs = K, K*) are analyzed. Relations between D and Ds decay branching ratios are obtained from the d s subgroup of SU(3) and dominant symmetry-breaking mechanisms are investigated. A CP asymmetry of magnitude 3.3× 10-3 is shown to result in the standard model from K0-K0 mixing in the final-state. New physics affecting the doubly Cabibbo-suppressed channels might either cancel this asymmetry or enhance it up to the percent level. A comparison between the CP asymmetries in D(s) KS X(s) and D(s) KL X(s) can pin down effects of new physics.
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