Chiral perturbation theory with Wilson-type fermions including a2 effects: Nf=2 degenerate case
Abstract
We have derived the quark mass dependence of mπ2, m AWI and fπ, using the chiral perturbation theory which includes the a2 effect associated with the explicit chiral symmetry breaking of the Wilson-type fermions, in the case of the Nf=2 degenerate quarks. Distinct features of the results are (1) the additive renormalization for the mass parameter mq in the Lagrangian, (2) O(a) corrections to the chiral log (mq mq) term, (3) the existence of more singular term, mq, generated by a2 contributions, and (4) the existence of both mq mq and mq terms in the quark mass from the axial Ward-Takahashi identity, m AWI. By fitting the mass dependence of mπ2 and m AWI, obtained by the CP-PACS collaboration for Nf=2 full QCD simulations, we have found that the data are consistently described by the derived formulae. Resumming the most singular terms mq, we have also derived the modified formulae, which show a better control over the next-to-leading order correction.
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