Exploiting CP-asymmetries in rare charm decays

Abstract

We analyze patterns from CP-violating new physics (NP) in hadronic and semileptonic rare charm c = u=1 transitions. Observation of direct CP-violation in hadronic decays, as in ACP, provides opportunities for c u \,+ -, =e,μ transitions, and vice versa. For the concrete case of flavorful, anomaly-free Z-models a NP-interpretation of ACP suggests measurable CP-asymmetries in semileptonic decays such as D π\, + - or D π π\, + -. Conversely, an observation of CP-violation in c u\, e+ e- or c u\, μ+ μ- decays supports a NP--interpretation of ACP. Flavorful U(1)-extensions provide explicit U--spin and isospin breaking which can be probed in patterns of hadronic decays of charm mesons. We work out signatures for CP-asymmetries in D0 π+ π-, D0 K+ K- and D0 π0 π0, D+ π+ π0 decays, which can be probed in the future at LHCb and Belle II and provide further informative cross checks.