Form factors of the D π and D K semileptonic decays with Nf = 2 twisted mass lattice QCD

Abstract

We present lattice results for the vector and scalar form factors of the semileptonic decays D -> π ell and D -> K in the physical range of values of squared four momentum transfer q2, obtained with Nf=2 maximally twisted Wilson fermions simulated at three different lattice spacings (a ~ 0.102 fm, 0.086 fm, 0.068 fm) with pion masses as light as 270 MeV and mπ L 4. The form factors are extracted using a double ratios strategy, which allows a good statistical accuracy and is independent of the vector current renormalization constant. The chiral/continuum extrapolation is performed through a simultaneous fit in the three variables (mπ, q2, a) using HMChPT formulae with additional O(a2) terms that parametrically account for the lattice spacing dependence. Our results are in very good agreement with the experimental data in the full q2 range for both D -> π and D -> K . At zero momentum transfer we obtain fD->pi(0) = 0.65(6)stat(6)syst and fD->K(0) = 0.76(5)stat(5)syst, where the systematic error does not include the effects of quenching the strange and the charm quarks. Our findings are in good agreement with recent lattice calculations at Nf = 2+1.