A model for decoherence of entangled beauty

Abstract

In the context of the entangled B0 B0 state produced at the (4S) resonance, we consider a modification of the usual quantum-mechanical time evolution with a dissipative term, which contains only one parameter denoted by λ and respects complete positivity. In this way a decoherence effect is introduced in the time evolution of the 2-particle B0 B0 state, which becomes stronger with increasing distance between the two particles. While our model of time evolution has decoherence for the 2-particle system, we assume that, after the decay of one of the two B mesons, the resulting 1-particle state obeys the purely quantum-mechanical time evolution. From the data on dilepton events we derive an upper bound on λ. We also show how λ is related to the so-called ``decoherence parameter'' ζ, which parameterizes decoherence in neutral flavoured meson--antimeson systems.

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