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      Khon-Sham Density Functional Inspired Approach to Nuclear Binding

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          Abstract

          A non-relativisitic nuclear density functional theory is constructed, not as usual, from an effective density dependent nucleon-nucleon force but directly introducing in the functional results from microscopic nuclear and neutron matter Bruckner G-matrix calculations at various densities. A purely phenomenological finite range part to account for surface properties is added. The striking result is that only four to five adjustable parameters, spin-orbit included, suffice to reproduce nuclear binding energies and radii with the same quality as obtained with the most performant effective forces, containing on the order of ten parameters. In this pilot work, for the pairing correlations, simply a density dependent zero range force is adopted from the literature. Possible future extensions of this approach are pointed out.

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          Hartree-Fock Calculations with Skyrme's Interaction. I. Spherical Nuclei

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            Climbing the Density Functional Ladder: Non-Empirical Meta-Generalized Gradient Approximation Designed for Molecules and Solids

            The electron density, its gradient, and the Kohn-Sham orbital kinetic energy density are the local ingredients of a meta-generalized gradient approximation (meta-GGA). We construct a meta-GGA density functional for the exchange-correlation energy that satisfies exact constraints without empirical parameters. The exchange and correlation terms respect {\it two} paradigms: one- or two-electron densities and slowly-varying densities, and so describe both molecules and solids with high accuracy, as shown by extensive numerical tests. This functional completes the third rung of ``Jacob's ladder'' of approximations, above the local spin density and GGA rungs.
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              Quantum Density Oscillations in an Inhomogeneous Electron Gas

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                Author and article information

                Journal
                05 June 2007
                2008-01-14
                Article
                10.1016/j.physletb.2008.04.013
                0706.0658
                3c2881bc-6763-462c-a781-1855b512ee03
                History
                Custom metadata
                Phys.Lett.B663:390-394,2008
                nucl-th

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