We present lattice results for the vector and scalar form factors of the semileptonic decays D -> pi l nu_l and D -> K l nu_l in the physical range of values of squared four momentum transfer q^2, obtained with N_f=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 m_pi 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 (m_pi, q^2, a) using HMChPT formulae with additional O(a^2) terms that parametrically account for the lattice spacing dependence. Our results are in very good agreement with the experimental data in the full q^2 range for both D -> pi l nu_l and D -> K l nu_l. At zero momentum transfer we obtain f^{D->pi}(0) = 0.65(6)_{stat}(6)_{syst} and f^{D->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 N_f = 2+1.

Di Vita, S., Haas, B., Lubicz, V., Mescia, F., Simula, S., Tarantino, C. (2010). Form factors of the D --> pi and D --> K semileptonic decays with Nf=2 twisted mass lattice QCD. In Proceedings of the 28th International Symposium on Lattice Field Theory, Lattice 2010 (pp.301).

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

LUBICZ, Vittorio;TARANTINO, CECILIA
2010-01-01

Abstract

We present lattice results for the vector and scalar form factors of the semileptonic decays D -> pi l nu_l and D -> K l nu_l in the physical range of values of squared four momentum transfer q^2, obtained with N_f=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 m_pi 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 (m_pi, q^2, a) using HMChPT formulae with additional O(a^2) terms that parametrically account for the lattice spacing dependence. Our results are in very good agreement with the experimental data in the full q^2 range for both D -> pi l nu_l and D -> K l nu_l. At zero momentum transfer we obtain f^{D->pi}(0) = 0.65(6)_{stat}(6)_{syst} and f^{D->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 N_f = 2+1.
2010
Di Vita, S., Haas, B., Lubicz, V., Mescia, F., Simula, S., Tarantino, C. (2010). Form factors of the D --> pi and D --> K semileptonic decays with Nf=2 twisted mass lattice QCD. In Proceedings of the 28th International Symposium on Lattice Field Theory, Lattice 2010 (pp.301).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/175394
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