Strange and light quark contributions to the nucleon mass from lattice QCD
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Date
2012
Authors
Bali, G.
Collins, S.
Gockeler, M.
Horsley, R.
Nakamura, Y.
Nobile, A.
Pleiter, D.
Rakow, P.
Schafer, A.
Schierholz, G.
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Physical Review D: Particles, Fields, Gravitation and Cosmology, 2012; 85(5):054502-1-054502-10
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Gunnar S. Bali, Sara Collins, Meinulf Göckeler, Roger Horsley, Yoshifumi Nakamura, Andrea Nobile, Dirk Pleiter, P. E. L. Rakow, Andreas Schäfer, Gerrit Schierholz, André Sternbeck, and James M. Zanotti (QCDSF Collaboration)
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Abstract
We determine the strangeness and light quark fractions of the nucleon mass by computing the quark line connected and disconnected contributions to the matrix elements mq(N|q̅ q|N) in lattice QCD, using the nonperturbatively improved Sheikholeslami-Wohlert Wilson fermionic action. We simulate nF=2 mass degenerate sea quarks with a pion mass of about 285 MeV and a lattice spacing a≈0.073 fm. The renormalization of the matrix elements involves mixing between contributions from different quark flavors. The pion-nucleon σ term is extrapolated to physical quark masses exploiting the sea quark mass dependence of the nucleon mass. We obtain the renormalized values σπN=(38±12) MeV at the physical point and fTs=σs/mN=0.012(14)-3+10 for the strangeness contribution at our larger than physical sea quark mass.
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©2012 American Physical Society