How large can the SM contribution to CP violation in D0- D0 mixing be?

Abstract

We investigate the maximum size of CP violating effects in D-mixing within the Standard Model (SM), using Heavy Quark Expansion (HQE) as theoretical working tool. For this purpose we determine the leading HQE contributions and also αs corrections as well as subleading 1/mc corrections to the absorptive part of the mixing amplitude of neutral D mesons. It turns out that these contributions to 12 do not vanish in the exact SU(3)F limit. Moreover, while the leading HQE terms give a result for 12 orders of magnitude lower than the current experimental value, we do find a sizeable phase. In the literature it was suggested that higher order terms in the HQE might be much less affected by the severe GIM cancellations of the leading terms; it is even not excluded that these higher order terms can reproduce the experimental value of y. If such an enhancement is realized in nature, the phase discovered in the leading HQE terms can have a sizeable effect. Therefore, we think that statements like: "CP violating effects in D-mixing of the order of 10-3 to 10-2 are an unambigous sign of new physics"--given our limited knowlegde of the SM prediction--are premature. Finally, we give an example of a new physics model that can enhance the leading HQE terms to 12 by one to two orders of magnitude.