An Analysis of Bs Decays in the Left-Right-Symmetric Model with Spontaneous CP Violation
Abstract
Non-leptonic Bs decays into CP eigenstates that are caused by b -> cc s quark-level transitions, such as Bs -> Ds+D-s, J/psi eta(') or J/psi phi, provide a powerful tool to search for ``new physics'', as the CP-violating effects in these modes are tiny in the Standard Model. We explore these effects for a particular scenario of new physics, the left-right-symmetric model with spontaneous CP violation. In our analysis, we take into account all presently available experimental constraints on the parameters of this model, i.e. those implied by K- and B-decay observables; we find that CP asymmetries as large as O(40%) may arise in the Bs channels, whereas the left-right-symmetric model favours a small CP asymmetry in the ``gold-plated'' mode Bd -> J/psi KS. Such a pattern would be in favour of B-physics experiments at hadron machines, where the Bs modes are very accessible.
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