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Toward ab initio density functional theory for nuclei

Nuclear Theory 2009-12-04 v2 Other Condensed Matter High Energy Physics - Phenomenology
Authors: J. E. Drut , R. J. Furnstahl , L. Platter
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Abstract

We survey approaches to nonrelativistic density functional theory (DFT) for nuclei using progress toward ab initio DFT for Coulomb systems as a guide. Ab initio DFT starts with a microscopic Hamiltonian and is naturally formulated using orbital-based functionals, which generalize the conventional local-density-plus-gradients form. The orbitals satisfy single-particle equations with multiplicative (local) potentials. The DFT functionals can be developed starting from internucleon forces using wave-function based methods or by Legendre transform via effective actions. We describe known and unresolved issues for applying these formulations to the nuclear many-body problem and discuss how ab initio approaches can help improve empirical energy density functionals.

Keywords

density functional theory time-dependent density functional theory hartree-fock-bogoliubov theory

Cite

@article{arxiv.0906.1463,
  title  = {Toward ab initio density functional theory for nuclei},
  author = {J. E. Drut and R. J. Furnstahl and L. Platter},
  journal= {arXiv preprint arXiv:0906.1463},
  year   = {2009}
}

Comments

69 pages, 16 figures, many revisions based on feedback. To appear in Progress in Particle and Nuclear Physics

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