Excitonic gap formation in neutral bilayer structures
Abstract
We consider the pairing between conduction band electrons, and the valence band holes in the neutral bilayer-type structures. By employing the bilayer Hubbard model, we show the possibility of the inter-plane exciton formation in the system without applied external field. The in-plane and inter-plane Coulomb interaction effects on the pairing mechanism are considered, and the role of the in-plane particle hopping asymmetry on the gap behavior is analyzed in the paper. We show that both Frenkel-type pairing channel and Wannier-Mott-type excitonic pairings are present in the considered system. We analyze also the structure of the chemical potential in the bilayer system. The temperature effects, and the tunable inter-plane electron hopping effects are discussed. For the Frenkel channel, we have shown a particular behavior of the chemical potential at the very low temperatures, which is related to the degenerated Frenkel-gap.
Keywords
Cite
@article{arxiv.1508.00508,
title = {Excitonic gap formation in neutral bilayer structures},
author = {V. Apinyan and T. K. Kopeć},
journal= {arXiv preprint arXiv:1508.00508},
year = {2016}
}
Comments
12 pages, 14 figures (in the arXive version), 12 pages, 14 figures (in the published version)