A U-Spin Anomaly in Charm CP Violation

Abstract

Recent LHCb data shows that the direct CP asymmetries of the decay modes D0→ π+π- and D0→ K+K- have the same sign, violating an improved U-spin limit sum rule in an unexpected way at 2.1σ. From the new data, we determine for the first time the imaginary part of the CKM-subleading, U-spin breaking U=1 correction to the U-spin limit U=0 amplitude. The imaginary part of the U=0 amplitude is determined by aCPdir. The corresponding strong phases are yet unknown and could be extracted in the future from time-dependent measurements. Assuming O(1) strong phases due to non-perturbative rescattering, we find the ratio of U-spin breaking to U-spin limit contributions to the CKM-subleading amplitudes to be (173+85-74)\%. This highly exceeds the Standard Model (SM) expectation of 30\% U-spin breaking, with a significance of 1.95σ. If this puzzle is confirmed with more data in the future, in the SM it would imply the breakdown of the U-spin expansion in CKM-subleading amplitudes of charm decays. The other solution are new physics models that generate an additional U=1 operator, leaving the U-spin power expansion intact. Examples for the latter option are an extended scalar sector or flavorful Z' models.

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