Robert Roth, Jeffrey R. Gour, Piotr Piecuch
Published 2009-06-23, updated 2009-08-05Version 2
The problem of center-of-mass (CM) contaminations in ab initio nuclear structure calculations using configuration interaction (CI) and coupled-cluster (CC) approaches is analyzed. A rigorous and quantitative scheme for diagnosing the CM contamination of intrinsic observables is proposed and applied to ground-state calculations for He-4 and O-16. The CI and CC calculations for O-16 based on model spaces defined via a truncation of the single-particle basis lead to sizable CM contaminations, while the importance-truncated no-core shell model based on the $N_{\max}\hbar\Omega$ space is virtually free of CM contaminations.
Comments: 6 pages, 1 figure, 2 tables; v2: minor modifications, Phys. Lett. B in print
Journal: Phys.Lett.B679:334-339,2009
Solution of the center-of-mass problem in nuclear structure calculations
Evolved Chiral NN+3N Hamiltonians for Ab Initio Nuclear Structure Calculations
Tensor-decomposition techniques for ab initio nuclear structure calculations. From chiral nuclear potentials to ground-state energies
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