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000858800 1001_ $$0P:(DE-HGF)0$$aBurrows, M.$$b0
000858800 245__ $$aAb initio translationally invariant nonlocal one-body densities from no-core shell-model theory
000858800 260__ $$aWoodbury, NY$$bInst.$$c2018
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000858800 520__ $$aBackground: It is well known that effective nuclear interactions are in general nonlocal. Thus if nuclear densities obtained from ab initio no-core shell-model (NCSM) calculations are to be used in reaction calculations, translationally invariant nonlocal densities must be available.Purpose: Though it is standard to extract translationally invariant one-body local densities from NCSM calculations to calculate local nuclear observables like radii and transition amplitudes, the corresponding nonlocal one-body densities have not been considered so far. A major reason for this is that the procedure for removing the center-of-mass component from NCSM wave functions up to now has only been developed for local densities.Results: A formulation for removing center-of-mass contributions from nonlocal one-body densities obtained from NCSM and symmetry-adapted NCSM (SA-NCSM) calculations is derived, and applied to the ground state densities of 4He, 6Li, 12C, and 16O. The nonlocality is studied as a function of angular momentum components in momentum as well as coordinate space.Conclusions: We find that the nonlocality for the ground state densities of the nuclei under consideration increases as a function of the angular momentum. The relative magnitude of those contributions decreases with increasing angular momentum. In general, the nonlocal structure of the one-body density matrices we studied is given by the shell structure of the nucleus, and cannot be described with simple functional forms.
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000858800 536__ $$0G:(DE-Juel1)jikp03_20090701$$aChiral dynamics in Few-Baryon Systems (jikp03_20090701)$$cjikp03_20090701$$fChiral dynamics in Few-Baryon Systems$$x2
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000858800 7001_ $$0P:(DE-HGF)0$$aElster, Ch.$$b1$$eCorresponding author
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000858800 7001_ $$0P:(DE-HGF)0$$aLauney, K. D.$$b3
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