Chiral extrapolations for nucleon electric charge radii

Date

2013

Authors

Hall, J.
Leinweber, D.
Young, R.

Editors

Advisors

Journal Title

Journal ISSN

Volume Title

Type:

Journal article

Citation

Physical Review D: Particles, Fields, Gravitation and Cosmology, 2013; 88(1):1-9

Statement of Responsibility

J. M. M. Hall, D. B. Leinweber, and R. D. Young

Conference Name

Abstract

Lattice simulations for the electromagnetic form factors of the nucleon yield insights into the internal structure of hadrons. The logarithmic divergence of the charge radius in the chiral limit poses an interesting challenge in achieving reliable predictions from finite-volume lattice simulations. Recent results near the physical pion mass (m(π)∼180 MeV) are examined in order to confront the issue of how the chiral regime is approached. The electric charge radius of the nucleon isovector presents a forum for achieving consistent finite-volume corrections. Newly developed techniques within the framework of chiral effective field theory (χEFT) are used to achieve a robust extrapolation of the electric charge radius to the physical pion mass and to infinite volume. The chiral extrapolations exhibit considerable finite-volume dependence; lattice box sizes of L≳7 fm are required in order to achieve a direct lattice simulation result within 2% of the infinite-volume value at the physical point. Predictions of the volume dependence are provided to guide the interpretation of future lattice results.

School/Discipline

Dissertation Note

Provenance

Description

Access Status

Rights

© 2013 American Physical Society

License

Call number

Persistent link to this record