We discuss a novel method to calculate f(B) on the lattice, introduced in [1], based on the study of the dependence of finite size effects upon the heavy quark mass of flavoured mesons and on a non-perturbative recursive finite size technique. This method avoids the systematic errors related to extrapolations from the static limit or to the tuning of the coefficients of effective Lagrangian and the results admit an extrapolation to the continuum limit. We show the results of a first estimate at finite lattice spacing, but close to the continuum limit, giving f(B) = 170(11)(5)(22) MeV. We also obtain f(Bs) = 192(9)(5)(24)MeV. The first error is statistical, the second is our estimate of the systematic error from the method and the third the systematic error from the specific approximations adopted in this first exploratory calculation. The method can be generalized to two-scale problems in lattice QCD.
Guagnelli, M., Palombi, F., Petronzio, R., Tantalo, N. (2003). f(B) from finite size effects in lattice QCD. NUCLEAR PHYSICS B-PROCEEDINGS SUPPLEMENTS, 119, 616-618 [10.1016/S0920-5632(03)01640-2].
f(B) from finite size effects in lattice QCD
PETRONZIO, ROBERTO;TANTALO, NAZZARIO
2003-01-01
Abstract
We discuss a novel method to calculate f(B) on the lattice, introduced in [1], based on the study of the dependence of finite size effects upon the heavy quark mass of flavoured mesons and on a non-perturbative recursive finite size technique. This method avoids the systematic errors related to extrapolations from the static limit or to the tuning of the coefficients of effective Lagrangian and the results admit an extrapolation to the continuum limit. We show the results of a first estimate at finite lattice spacing, but close to the continuum limit, giving f(B) = 170(11)(5)(22) MeV. We also obtain f(Bs) = 192(9)(5)(24)MeV. The first error is statistical, the second is our estimate of the systematic error from the method and the third the systematic error from the specific approximations adopted in this first exploratory calculation. The method can be generalized to two-scale problems in lattice QCD.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
