Nucleon Structure with Domain Wall Fermions at a = 0.084 fm

S.N.Syritsyn; J.D.Bratt; M.F.Lin; H.B.Meyer; J.W.Negele,; A.V.Pochinsky; M.Procura; R.G.Edwards; K.Orginos; D.G.Richards; M.Engelhardt,; G.T.Fleming; Ph.H\"agler; B.Musch; D.B.Renner; W.Schroers

arXiv:0903.3063·hep-lat·April 14, 2009·2 cites

Nucleon Structure with Domain Wall Fermions at a = 0.084 fm

S.N.Syritsyn, J.D.Bratt, M.F.Lin, H.B.Meyer, J.W.Negele,, A.V.Pochinsky, M.Procura, R.G.Edwards, K.Orginos, D.G.Richards, M.Engelhardt,, G.T.Fleming, Ph.H\"agler, B.Musch, D.B.Renner, W.Schroers

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TL;DR

This paper reports initial lattice QCD calculations of nucleon matrix elements using domain wall fermions at a specific lattice spacing, comparing results across different lattice spacings to understand nucleon structure.

Contribution

It provides new initial results for nucleon matrix elements with domain wall fermions at a fine lattice spacing and compares them with coarser lattice results.

Findings

01

Initial calculations of nucleon matrix elements at a = 0.084 fm

02

Comparison of results between different lattice spacings

03

Results at pion masses down to 300 MeV

Abstract

We present initial calculations of nucleon matrix elements of twist-two operators with 2+1 flavors of domain wall fermions at a lattice spacing a = 0.084 fm for pion masses down to 300 MeV. We also compare the results with the domain wall calculations on a coarser lattice.

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Taxonomy

TopicsQuantum Chromodynamics and Particle Interactions · Particle physics theoretical and experimental studies · High-Energy Particle Collisions Research