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A Green's function approach to giant-dipole systems

arXiv:1705.10527 · doi:10.1088/1361-6455/aa9763

Abstract

In this work we perform a Green's function analysis of giant-dipole systems. First we derive the Green's functions of different magnetically field-dressed systems, in particular of electronically highly excited atomic species in crossed electric and magnetic fields, so-called giant-dipole states. We determine the dynamical polarizability of atomic giant-dipole states as well as the adiabatic potential energy surfaces of giant-dipole molecules in the framework of the Green's function approach. Furthermore, we perform an comparative analysis of the latter to and exact diagonalization scheme and show the general divergence behavior of the widely applied Fermi-pseudopotential approach. Finally, we derive the giant-dipole's regularized Green's function representation.

11 pages, 4 figures, few changes compared to first version, published in "Special issue on correlations in light-matter interactions" of J. Phys. B: At. Mol. Opt. Phys