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Paper detail

Exploring interpolating momentum schemes

We compute the renormalisation factors of the quark mass and wave function using IMOM (Interpolating MOMenta) schemes. The framework is the Rome-Southampton non-renormalisation method, but the momentum transfer in the quark bilinears is not restricted to zero or to the symmetric point. We study the scale dependence, infrared contamination and lattice artefacts for different values of this momentum transfer and for two different kinds of projectors. For the numerical simulations, we use data generated by the RBC-UKQCD collaborations, with $N_f = 2+1$ flavours of Domain-Wall fermions, and inverse lattice spacing of $1.79 $ and $2.38$ GeV.

preprint2022arXivOpen access
N. GarronC. CahillM. GorbahnJ. A. GraceyP. E. L. Rakow
hep-lat
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N. GarronC. CahillM. GorbahnJ. A. GraceyP. E. L. Rakow

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