1999
DOI: 10.1103/physrevd.60.114503
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Partial flavor symmetry restoration for chiral staggered fermions

Abstract: We study the leading discretization errors for staggered fermions by first constructing the continuum effective Lagrangian including terms of O(a 2 ), and then constructing the corresponding effective chiral Lagrangian. The terms of O(a 2 ) in the continuum effective Lagrangian completely break the SU (4) flavor symmetry down to the discrete subgroup respected by the lattice theory. We find, however, that the O(a 2 ) terms in the potential of the chiral Lagrangian maintain an SO(4) subgroup of SU (4). It follo… Show more

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Cited by 234 publications
(400 citation statements)
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“…To obtain information about the quark-mass dependence of the relevant matrix elements, which allows us to extrapolate our results to the physical masses, we perform our calculation at six sea × six valence quark masses, thus including numerous partially quenched data points. In addition, the leading-order taste violations, which arise at O(a 2 α s ), are included in the theory and then removed when the extrapolation is performed using rooted heavy-meson staggered chiral perturbation theory (rHMSχPT) [63,64,67]. The χPT expression for O q 1 , as well as for the matrix elements of all the other operators in the ∆B = 2 effective Hamiltonian was first described in Ref.…”
Section: Chiral Perturbation Theorymentioning
confidence: 99%
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“…To obtain information about the quark-mass dependence of the relevant matrix elements, which allows us to extrapolate our results to the physical masses, we perform our calculation at six sea × six valence quark masses, thus including numerous partially quenched data points. In addition, the leading-order taste violations, which arise at O(a 2 α s ), are included in the theory and then removed when the extrapolation is performed using rooted heavy-meson staggered chiral perturbation theory (rHMSχPT) [63,64,67]. The χPT expression for O q 1 , as well as for the matrix elements of all the other operators in the ∆B = 2 effective Hamiltonian was first described in Ref.…”
Section: Chiral Perturbation Theorymentioning
confidence: 99%
“…IV, we give the details of the procedure for the correlator fits. Section V is devoted to the chiralcontinuum extrapolation, which is performed within the framework of rooted staggered chiral perturbation theory [63][64][65][66][67]. We describe and discuss the choice of the functional form used in the extrapolation, the different fitting methods tested, and the choice of parameters and parametrization.…”
mentioning
confidence: 99%
“…In practice it is easiest to first determine all allowed lattice operators of dimension ≤ 6, as in Refs. [15,6], and then map these onto continuum quark-level operators [6]. Next one maps the continuum quark-level operators onto chiral operators describing the PGB sector.…”
Section: Nlo Staggered Chiral Lagrangianmentioning
confidence: 99%
“…Thus the LO staggered potential is of O(a 2 ) [6,10], while the NLO taste-violating operators in the staggered chiral Lagrangian are of O(a 2 p 2 ), O(a 4 ), and O(a 2 m) [13].…”
Section: Nlo Staggered Chiral Lagrangianmentioning
confidence: 99%
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