English

Convergence of all-order many-body methods: coupled-cluster study for Li

Atomic Physics 2011-07-13 v1
Authors: A. Derevianko , S. G. Porsev , K. Beloy
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Abstract

We present and analyze results of the relativistic coupled-cluster calculation of energies, hyperfine constants, and dipole matrix elements for the 2s2s, 2p1/22p_{1/2}, and 2p3/22p_{3/2} states of Li atom. The calculations are complete through the fourth order of many-body perturbation theory for energies and through the fifth order for matrix elements and subsume certain chains of diagrams in all orders. A nearly complete many-body calculation allows us to draw conclusions on the convergence pattern of the coupled-cluster method. Our analysis suggests that the high-order many-body contributions to energies and matrix elements scale proportionally and provides a quantitative ground for semi-empirical fits of {\em ab inito} matrix elements to experimental energies.

Keywords

atomic clusters and nuclear clustering many-body quantum physics relativistic atomic physics

Cite

@article{arxiv.0804.4697,
  title  = {Convergence of all-order many-body methods: coupled-cluster study for Li},
  author = {A. Derevianko and S. G. Porsev and K. Beloy},
  journal= {arXiv preprint arXiv:0804.4697},
  year   = {2011}
}

Comments

4 pages, 3 figures

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