On the Delta I = 1/2 Rule in Holographic QCD
arXiv:hep-ph/0512089 · doi:10.1103/PhysRevD.74.026003
Abstract
We study the $ÎI = 1/2$ rule for kaon decays and the $B_K$ parameter for $K^0 - {\bar K}^0$ mixing in a dual 5-dimensional holographic QCD model. We perform, in the chiral limit, computations of the relevant four-point current-current correlators, which depend upon self-interactions among the 5D bulk fields. Spontaneous chiral symmetry breaking ($Ï$SB) is realized through boundary conditions on the bulk fields. Numerical results are analyzed in comparison with QCD, chiral perturbation theory ($Ï$PT) and data, finding reasonable agreement with the experimental values of the $g_8$ and $g_{27}$ parameters describing the $ÎI =1/2,3/2$ decay channels.
4 pages, 1 figure, numerical factor corrected, references added