Standard Model Benchmarks for D0 K- K+, π-π+, K0 S K0 S Decays
Abstract
The non-leptonic D0 K- K+ and D0 π-π+ decays are powerful probes of the Standard Model and are related to each other through the U-spin symmetry of the strong interaction. Using lattice QCD inputs we calculate the corresponding colour-allowed tree amplitudes in factorisation and demonstrate that non-factorisable contributions and U-spin-breaking effects at the level of 50% allow us to accommodate the measured branching ratios in the Standard Model. An exciting direct probe of such non-factorisable and U-spin breaking effects is provided by the D0 K0 S K0 S channel. This decay is governed by non-factorisable exchange topologies and essentially vanishes in the U-spin limit, although it is experimentally well established with a prominent branching ratio. Extrapolating our D0 K- K+ results using the isospin symmetry, we find a consistent benchmark picture. Specifically, we can accommodate the measured D0 K0 S K0 S branching ratio with U-spin-breaking effects at the 50% level and exchange amplitudes at the level of 50% of the colour-allowed D0 K- K+, D0 π-π+ tree contributions. Finally, we explore the resulting range for direct CP violation in D0 K0 S K0 S, obtaining upper bounds in our benchmark scenarios of a few per mille, offering an exciting target for future measurements.
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