The Physics of K0 - K0 Mixing: BK and MLS in the Chiral Quark Model
Abstract
We compute the BK parameter and the mass difference MLS of the K0- K0 system by means of the chiral quark model. The chiral coefficients of the relevant S=2 and S=1 chiral lagrangians are computed via quark-loop integration. We include the relevant effects of one-loop corrections in chiral perturbation theory. The final result is very sensitive to non-factorizable corrections of O(αS N) coming from gluon condensation. The size of the gluon condensate is determined by fitting the experimental value of the amplitude K+ π+π0. By varying all the relevant parameters we obtain BK= 0.87 0.33\ . We evaluate within the model the long-distance contributions to MLS induced by the double insertion of the S = 1 chiral lagrangian and study the interplay between short- and long-distance amplitudes. By varying all parameters we obtain MLSth/ MLSexp = 0.76 +0.64-0.34 . Finally, we investigate the phenomenological constraints on the Kobayashi-Maskawa parameter Im λ t entering the determination of ε'/ε.
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