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D J Dean et al 2008 Comput. Sci. Disc. 1 015008 doi:10.1088/1749-4699/1/1/015008

Computational aspects of nuclear coupled-cluster theory

D J Dean1, G Hagen1, M Hjorth-Jensen2,3 and T Papenbrock1,4

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Abstract References Cited By

Coupled-cluster (CC) theory represents an important theoretical tool that we use to solve the quantum many-body problem. CC theory also lends itself to computation in a parallel computing environment. In this paper, we present selected results from ab initio studies of stable and weakly bound nuclei utilizing computational techniques that we employ to solve CC theory. We also outline several perspectives for future research directions in this area.


PACS

24.10.Cn Many-body theory

21.60.Cs Shell model

21.30.Fe Forces in hadronic systems and effective interactions

MSC

81V70 Many-body theory; quantum Hall effect

81V35 Nuclear physics

Subjects

Nuclear physics

Dates

Issue 1 (October-December 2008)

Received 7 April 2008, in final form 15 August 2008

Published 20 November 2008



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