CP violation in Kμ+μ- with and without time dependence through a tagged analysis
Abstract
We point out that using current knowledge of B(K0Lμ+μ-) and B(K0L γγ), one can extract short-distance information from the combined measurement of the time-integrated CP asymmetry, A CP(K0μ+μ-), and of B(K0Sμ+μ-). We discuss the interplay between this set of observables, and demonstrate that determining sign[A CP(K0μ+μ-)] would eliminate the discrete ambiguity in the Standard Model prediction for B(K0Lμ+μ-). We then move on to feasibility studies within an LHCb-like setup, using both time-integrated and time-dependent information, employing K0 and K0 tagging methods. We find that, within an optimistic scenario, the short-distance amplitude, proportional to the CKM parameter combination |A2λ5η|, could be constrained by LHCb at the level of about 35\% of its Standard Model value, and the discrete ambiguity in B(K0Lμ+μ-) SM could be resolved at more than 3σ by the end of the high luminosity LHC.
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