4.8 Article

Magnetic Moments of Light Nuclei from Lattice Quantum Chromodynamics

PHYSICAL REVIEW LETTERS (2014)

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Journal

PHYSICAL REVIEW LETTERS
Volume 113, Issue 25, Pages -

Publisher

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevLett.113.252001

Keywords

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Categories

Physics, Multidisciplinary

Funding

  1. NSF [PHY1206498]
  2. DOE [DE-FG02-00ER41132, DE-FG02-97ER4014]
  3. U.S. Department of Energy [DE-SC0010495, DE-FG02-04ER41302, DE-AC05-06OR23177, DE-AC02-05CH11231]
  4. Solomon Buchsbaum Fund at MIT
  5. MEC (Spain) [FIS2011-24154]
  6. FEDER
  7. City College of New York-RIKEN/Brookhaven Research Center
  8. CUNY
  9. U.S. National Science Foundation [PHY12-05778]
  10. National Science Foundation [OCI-1053575]
  11. NERSC
  12. PRACE Research Infrastructure resource Mare Nostrum at the Barcelona SuperComputing Center
  13. USQCD Collaboration
  14. Division Of Physics
  15. Direct For Mathematical & Physical Scien [1205778] Funding Source: National Science Foundation
  16. Division Of Physics
  17. Direct For Mathematical & Physical Scien [1401660] Funding Source: National Science Foundation

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We present the results of lattice QCD calculations of the magnetic moments of the lightest nuclei, the deuteron, the triton, and He-3, along with those of the neutron and proton. These calculations, performed at quark masses corresponding to m(pi) similar to 800 MeV, reveal that the structure of these nuclei at unphysically heavy quark masses closely resembles that at the physical quark masses. In particular, we find that the magnetic moment of He-3 differs only slightly from that of a free neutron, as is the case in nature, indicating that the shell-model configuration of two spin-paired protons and a valence neutron captures its dominant structure. Similarly a shell-model-like moment is found for the triton, mu 3(H) similar to mu(p). The deuteron magnetic moment is found to be equal to the nucleon isoscalar moment within the uncertainties of the calculations. Furthermore, deviations from the Schmidt limits are also found to be similar to those in nature for these nuclei. These findings suggest that at least some nuclei at these unphysical quark masses are describable by a phenomenological nuclear shell model.

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