B-meson physics from non-perturbative lattice heavy quark effective theory (1102.0090v1)

Abstract: During the last years, the ALPHA collaboration has been developing and implementing a method based on Heavy Quark Effective Theory (HQET) to compute B-mesons observables through lattice simulations. Thanks to a non-perturbative matching to QCD, the theory is renormalizable at any order of the heavy quark mass expansion. In order to extract precisely the relevant matrix elements and masses, we use all-to-all propagators and solve an generalized eigenvalue problem (GEVP). We have shown in the quenched approximation that quantities like the b-quark mass mb, the heavy-light decay constant(s) or the B-meson spectrum can be computed precisely beyond the static approximation (including the first corrections in 1/\mb). More recently, we have started to include the sea quark effects, by working with Nf=2 light flavors of dynamical fermions[1]. The computation of the matching parameters is almost finished, but concerning the extraction of the hadronic quantities for which we use some CLS ensembles[2], only one lattice spacing has been analyzed so far. In this proceeding we report on the status of this project and present some preliminary results.