Chiral Structure in Baryon Magnetic Moments
R. D. Young, D. B. Leinweber, A. W. Thomas
TL;DR
This paper discusses recent progress in chiral effective field theory with finite-range regularization, demonstrating clear evidence of quenched chiral physics in baryon magnetic moments from FLIC fermion simulations.
Contribution
It introduces advances in regularized chiral effective field theory and applies them to baryon magnetic moments, revealing quenched chiral physics effects.
Findings
Evidence of quenched chiral physics in baryon magnetic moments
Application of finite-range regularized chiral EFT to lattice data
Clarification of chiral physics signals in FLIC fermion simulations
Abstract
We highlight recent advances in finite-range regularised chiral effective field theory. Application to baryon magnetic moments show an unambiguous signal of quenched chiral physics in FLIC fermion simulations.
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