English

Excitons in one-dimensional Mott insulators

Strongly Correlated Electrons 2009-11-07 v2

Abstract

We employ dynamical density-matrix renormalization group (DDMRG) and field-theory methods to determine the frequency-dependent optical conductivity in one-dimensional extended, half-filled Hubbard models. The field-theory approach is applicable to the regime of `small' Mott gaps which is the most difficult to access by DDMRG. For very large Mott gaps the DDMRG recovers analytical results obtained previously by means of strong-coupling techniques. We focus on exciton formation at energies below the onset of the absorption continuum. As a consequence of spin-charge separation, these Mott-Hubbard excitons are bound states of spinless, charged excitations (`holon-antiholon' pairs). We also determine exciton binding energies and sizes. In contrast to simple band insulators, we observe that excitons exist in the Mott-insulating phase only for a sufficiently strong intersite Coulomb repulsion. Furthermore, our results show that the exciton binding energy and size are not related in a simple way to the strength of the Coulomb interaction.

Keywords

Cite

@article{arxiv.cond-mat/0103406,
  title  = {Excitons in one-dimensional Mott insulators},
  author = {F. H. L. Essler and F. Gebhard and E. Jeckelmann},
  journal= {arXiv preprint arXiv:cond-mat/0103406},
  year   = {2009}
}

Comments

15 pages, 6 eps figures, corrected typos in labels of figures 4,5, and 6