Strange magnetic form factor of the nucleon in a chiral effective model at next to leading order

P. Wang, D. B. Leinweber, and A. W. Thomas

Phys. Rev. D 89, 033008 – Published 18 February 2014

Abstract

The strange magnetic form factor of the nucleon is studied in a chiral effective model motivated by the heavy baryon formalism at next-to-leading order. The one-loop contributions from kaon and intermediate octet and decuplet hyperons are included, using finite-range regularization to deal with the ultraviolet divergences. Drawing on an established connection between quenched and full QCD, this model makes it possible to predict the strange magnetic form factor under the hypothesis that for a dipole regulator mass $Λ$ around 0.8 GeV, strangeness in the core is negligible. The strange magnetic form factor is found to be small and negative over a range of momentum transfer, while the strange magnetic moment is consistent with the best lattice QCD determinations.

Received 12 December 2013

DOI:https://doi.org/10.1103/PhysRevD.89.033008

Authors & Affiliations

P. Wang^1,2, D. B. Leinweber³, and A. W. Thomas^3,4

¹Institute of High Energy Physics, CAS, P. O. Box 918(4), Beijing 100049, China
²Theoretical Physics Center for Science Facilities, CAS, Beijing 100049, China
³Special Research Center for the Subatomic Structure of Matter (CSSM), School of Chemistry & Physics, University of Adelaide, SA 5005 Adelaide, Australia
⁴ARC Centre of Excellence in Particle Physics at the Terascale, School of Chemistry & Physics,University of Adelaide, SA 5005 Adelaide, Australia

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Vol. 89, Iss. 3 — 1 February 2014

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