Hyperon-Nucleon Interactions from Quantum Chromodynamics and the Composition of Dense Nuclear Matter
Author(s)
Beane, S. R.; Chang, E.; Cohen, S. D.; Detmold, William; Lin, H.-W.; Luu, T. C.; Orginos, Kostas; Savage, M. J.; Walker-Loud, A.; Parreno, A.; ... Show more Show less
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The low-energy nΣ[superscript -] interactions determine, in part, the role of the strange quark in dense matter, such as that found in astrophysical environments. The scattering phase shifts for this system are obtained from a numerical evaluation of the QCD path integral using the technique of lattice QCD. Our calculations, performed at a pion mass of m[subscript π]~389 MeV in two large lattice volumes and at one lattice spacing, are extrapolated to the physical pion mass using effective field theory. The interactions determined from lattice QCD are consistent with those extracted from hyperon-nucleon experimental data within uncertainties and strengthen model-dependent theoretical arguments that the strange quark is a crucial component of dense nuclear matter.
Date issued
2012-10Department
Massachusetts Institute of Technology. Center for Theoretical Physics; Massachusetts Institute of Technology. Department of PhysicsJournal
Physical Review Letters
Publisher
American Physical Society
Citation
Beane, S. et al. “Hyperon-Nucleon Interactions from Quantum Chromodynamics and the Composition of Dense Nuclear Matter.” Physical Review Letters 109.17 (2012). © 2012 American Physical Society
Version: Final published version
ISSN
0031-9007
1079-7114