English

Threshold features in transport through a 1D constriction

Strongly Correlated Electrons 2009-10-30 v2

Abstract

Suppression of electron current ΔI \Delta I through a 1D channel of length LL connecting two Fermi liquid reservoirs is studied taking into account the Umklapp electron-electron interaction induced by a periodic potential. This interaction causes Hubbard gaps EHE_H for LL \to \infty. In the perturbative regime where EHvc/LE_H \ll v_c/L (vc:v_c: charge velocity), and for small deviations δn\delta n of the electron density from its commensurate values ΔI/V- \Delta I/V can diverge with some exponent as voltage or temperature V,TV,T decreases above Ec=max(vc/L,vcδn)E_c=max(v_c/L,v_c \delta n), while it goes to zero below EcE_c. This results in a nonmonotonous behavior of the conductance.

Keywords

Cite

@article{arxiv.cond-mat/9701192,
  title  = {Threshold features in transport through a 1D constriction},
  author = {Vadim Ponomarenko and Naoto Nagaosa},
  journal= {arXiv preprint arXiv:cond-mat/9701192},
  year   = {2009}
}

Comments

Final variant published in PRL, 79, 1714; minor corrections