On improvement of the axial-vector current with stabilised Wilson fermions

Abstract

We report on the determination of the improvement coefficient c A for the non-singlet axial-vector current Aaμ(x) in the framework of stabilised Wilson-Clover fermions within three flavour lattice QCD. This is done by requiring the PCAC relation to hold for two different pseudo-scalar states. To generate these states, wavefunctions altering spatial structures on the boundaries of a Schr\"odinger functional lattice are employed and some variations of the (previously applied) wavefunction method are explored. The improvement coefficient is determined on a few ensembles for a range of gauge couplings that is potentially useful for future applications. Preliminary results on the renormalisation constants Z V for the vector current and Z A for the axial-vector current are also presented.

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