ar X iv : h ep - l at / 0 20 90 44 v 1 3 S ep 2 00 2 1 Residual mass effects in improved domain wall fermions ∗

ar X iv : h ep - l at / 0 41 00 34 v 1 2 2 O ct 2 00 4 Hadron Spectrum and Decay Constant from N F = 2 Domain Wall QCD

We report on the first large-scale study of two flavor QCD with domain wall fermions (DWF). Simulation has been carried out at three dynamical quark mass values about 1/2, 3/4, and 1 mstrange on 16 3 × 32 volume with Ls = 12 and a −1 ≈ 1.7 GeV. After discussing the details of the simulation, we report on the light hadron spectrum and decay constants.

ar X iv : h ep - l at / 0 20 90 56 v 1 4 S ep 2 00 2 1 I = 2 Pion Scattering Phase Shift with Wilson Fermions ∗

We present results of phase shift for I = 2 S-wave ππ system with the Wilson fermions in the quenched approximation. The finite size method proposed by Lüscher is employed, and calculations are carried out at

ar X iv : h ep - l at / 0 20 90 26 v 1 3 S ep 2 00 2 1 Dynamical fermions on anisotropic lattices ∗

We report on our study of two-flavor full QCD on anisotropic lattices using O(a)-improved Wilson quarks coupled with an RG-improved glue. The bare gauge and quark anisotropies corresponding to the renormalized anisotropy ξ = as/at = 2 are determined as functions of β and κ, using the Wilson loop and the meson dispersion relation at several lattice cutoffs and quark masses.

ar X iv : h ep - l at / 0 11 01 44 v 1 1 6 O ct 2 00 1 1 Re A 0 and Re A 2 from Quenched Lattice QCD

We have used domain wall fermions to calculate K → π and K → 0 matrix elements which can be used to study the ∆I = 1/2 rule for K decays in the Standard Model. Nonlinearities in the ∆I = 3/2 matrix elements due to chiral logarithms are explored and the subtractions needed for the ∆I = 1/2 matrix elements are discussed. Using renormalization factors calculated using non-perturbative renormalizat...

ar X iv : h ep - l at / 0 11 00 06 v 2 3 O ct 2 00 1 1 Matrix elements of ∆ S = 2 operators with Wilson fermions