Coupled-cluster theory for three-body Hamiltonians

G. Hagen; T. Papenbrock; D. J. Dean; A. Schwenk; A. Nogga; M. Włoch; P. Piecuch

doi:10.1103/PhysRevC.76.034302

Coupled-cluster theory for three-body Hamiltonians

G. Hagen, T. Papenbrock, D. J. Dean, A. Schwenk, A. Nogga, M. Włoch, P. Piecuch

Theoretical and Computational Physics

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171 Scopus citations

Abstract

We derive coupled-cluster equations for three-body Hamiltonians. The equations for the one- and two-body cluster amplitudes are presented in a factorized form that leads to an efficient numerical implementation. We employ low-momentum two- and three-nucleon interactions and calculate the binding energy of He4. The results show that the main contribution of the three-nucleon interaction stems from its density-dependent zero-, one-, and two-body terms that result from the normal ordering of the Hamiltonian in coupled-cluster theory. The residual three-body terms that remain after normal ordering can be neglected.

Original language	English
Article number	034302
Journal	Physical Review C - Nuclear Physics
Volume	76
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.76.034302
State	Published - Sep 4 2007

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AU - Hagen, G.

AU - Papenbrock, T.

AU - Dean, D. J.

AU - Schwenk, A.

AU - Nogga, A.

AU - Włoch, M.

AU - Piecuch, P.

PY - 2007/9/4

Y1 - 2007/9/4

N2 - We derive coupled-cluster equations for three-body Hamiltonians. The equations for the one- and two-body cluster amplitudes are presented in a factorized form that leads to an efficient numerical implementation. We employ low-momentum two- and three-nucleon interactions and calculate the binding energy of He4. The results show that the main contribution of the three-nucleon interaction stems from its density-dependent zero-, one-, and two-body terms that result from the normal ordering of the Hamiltonian in coupled-cluster theory. The residual three-body terms that remain after normal ordering can be neglected.

AB - We derive coupled-cluster equations for three-body Hamiltonians. The equations for the one- and two-body cluster amplitudes are presented in a factorized form that leads to an efficient numerical implementation. We employ low-momentum two- and three-nucleon interactions and calculate the binding energy of He4. The results show that the main contribution of the three-nucleon interaction stems from its density-dependent zero-, one-, and two-body terms that result from the normal ordering of the Hamiltonian in coupled-cluster theory. The residual three-body terms that remain after normal ordering can be neglected.

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JO - Physical Review C - Nuclear Physics

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Coupled-cluster theory for three-body Hamiltonians

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