CP Violation and Arrows of Time Evolution of a Neutral K or B Meson from an Incoherent to a Coherent State

Abstract

We study the evolution of a neutral K meson prepared as an incoherent equal mixture of K0 and K0. Denoting the density matrix by (t) = 1/2 N(t) [\1 + ζ(t) · σ ] , the norm of the state N(t) is found to decrease monotonically from one to zero, while the magnitude of the Stokes vector |ζ(t)| increases monotonically from zero to one. This property qualifies these observables as arrows of time. Requiring monotonic behaviour of N(t) for arbitrary values of γL, γS and m yields a bound on the CP-violating overlap δ = KLKS, which is similar to, but weaker than, the known unitarity bound. A similar requirement on |ζ(t)| yields a new bound, δ2 < 1/2 ( γ m) (3π4 γ m) which is particularly effective in limiting the CP-violating overlap in the B0-B0 system. We obtain the Stokes parameter ζ3(t) which shows how the average strangeness of the beam evolves from zero to δ. The evolution of the Stokes vector from |ζ| = 0 to |ζ| = 1 has a resemblance to an order parameter of a system undergoing spontaneous symmetry breaking.