Effective charge-spin models for quantum dots
摘要
It is shown that at low densities, quantum dots with few electrons may be mapped onto effective charge-spin models for the low-energy eigenstates. This is justified by defining a lattice model based on a many-electron pocket-state basis in which electrons are localised near their classical ground-state positions. The equivalence to a single-band Hubbard model is then established leading to a charge-spin () model which for most geometries reduces to a spin (Heisenberg) model. The method is refined to include processes which involve cyclic rotations of a ``ring'' of neighboring electrons. This is achieved by introducing intermediate lattice points and the importance of ring processes relative to pair-exchange processes is investigated using high-order degenerate perturbation theory and the WKB approximation. The energy spectra are computed from the effective models for specific cases and compared with exact results and other approximation methods.
引用
@article{arxiv.cond-mat/9605200,
title = {Effective charge-spin models for quantum dots},
author = {John H. Jefferson and Wolfgang Häusler},
journal= {arXiv preprint arXiv:cond-mat/9605200},
year = {2009}
}
备注
RevTex, 24 pages, 7 figures submitted as compressed and PostScript files