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Borasoy, B. [Author]; Epelbaum, E. [Author]; Krebs, H. [Author]; Lee, D. [Author]; Meissner, U.G. [Author]

Lattice simulations for light nuclei: Chiral effective field theory at leading order

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  • Media type: E-Article
  • Title: Lattice simulations for light nuclei: Chiral effective field theory at leading order
  • Contributor: Borasoy, B. [Author]; Epelbaum, E. [Author]; Krebs, H. [Author]; Lee, D. [Author]; Meissner, U.G. [Author]
  • imprint: Springer, 2007
  • Published in: The European physical journal / A 31, 105 - 123 (2007). doi:10.1140/epja/i2006-10154-1
  • Language: English
  • DOI: https://doi.org/10.1140/epja/i2006-10154-1
  • ISSN: 1434-6001
  • Keywords: tritium ; lattice field theory ; symmetry: SU(4) ; effective Lagrangian: chiral ; helium: nuclide ; light nucleus: form factor ; nucleon nucleon: interaction ; light nucleus: wave function ; pi nucleon: coupling ; many-body problem ; scattering amplitude: partial wave ; deuteron ; numerical calculations: Monte Carlo ; path integral ; light nucleus: nuclear model
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  • Description: We discuss lattice simulations of light nuclei at leading order in the chiral effective field theory. Using lattice pion fields and auxiliary fields, we include the physics of instantaneous one-pion exchange and the leading-order S-wave contact interactions. We also consider higher-derivative contact interactions which adjust the S-wave scattering amplitude at higher momenta. By construction our lattice path integral is positive definite in the limit of exact Wigner SU(4) symmetry for any even number of nucleons. This SU(4) positivity and the approximate SU(4) symmetry of the low-energy interactions play an important role in suppressing sign and phase oscillations in Monte Carlo simulations. We assess the computational scaling of the lattice algorithm for light nuclei with up to eight nucleons and analyze in detail calculations of the deuteron, triton, and helium-4.
  • Access State: Open Access