D → K, l Semileptonic Decay Scalar Form Factor and |Vcs| from Lattice QCD

Abstract

We present a new study of D semileptonic decays on the lattice which employs the Highly Improved Staggered Quark (HISQ) action for both the charm and the light valence quarks. We work with MILC unquenched Nf = 2 + 1 lattices and determine the scalar form factor f0(q2) for D → K, l semileptonic decays. The form factor is obtained from a scalar current matrix element that does not require any operator matching. We develop a new approach to carrying out chiral/continuum extrapolations of f0(q2). The method uses the kinematic "z" variable instead of q2 or the kaon energy EK and is applicable over the entire physical q2 range. We find fD → K0(0) fD → K+(0) = 0.747(19) in the chiral plus continuum limit and hereby improve the theory error on this quantity by a factor of 4 compared to previous lattice determinations. Combining the new theory result with recent experimental measurements of the product fD → K+(0) * |Vcs| from BaBar and CLEO-c leads to the most precise direct determination of the CKM matrix element |Vcs| to date, |Vcs| = 0.961(11)(24), where the first error comes from experiment and the second is the lattice QCD theory error. We calculate the ratio fD → K+(0)/fDs and find 2.986 0.087 GeV-1 and show that this agrees with experiment.