English

Inter edge Tunneling in Quantum Hall Line Junctions

Mesoscale and Nanoscale Physics 2009-11-07 v1

Abstract

We propose a scenario to understand the puzzling features of the recent experiment by Kang and coworkers on tunneling between laterally coupled quantum Hall liquids by modeling the system as a pair of coupled chiral Luttinger liquid with a point contact tunneling center. We show that for filling factors ν1\nu\sim1 the effects of the Coulomb interactions move the system deep into strong tunneling regime, by reducing the magnitude of the Luttinger parameter KK, leading to the appearance of a zero-bias differential conductance peak of magnitude Gt=Ke2/hG_t=Ke^2/h at zero temperature. The abrupt appearance of the zero bias peak as the filling factor is increased past a value ν1 \nu^* \gtrsim 1, and its gradual disappearance thereafter can be understood as a crossover controlled by the main energy scales of this system: the bias voltage VV, the crossover scale TKT_K, and the temperature TT. The low height of the zero bias peak 0.1e2/h\sim 0.1e^2/h observed in the experiment, and its broad finite width, can be understood naturally within this picture. Also, the abrupt reappearance of the zero-bias peak for ν2\nu \gtrsim 2 can be explained as an effect caused by spin reversed electrons, \textit{i. e.} if the 2DEG is assumed to have a small polarization near ν2\nu\sim2. We also predict that as the temperature is lowered ν\nu^* should decrease, and the width of zero-bias peak should become wider. This picture also predicts the existence of similar zero bias peak in the spin tunneling conductance near for ν2\nu \gtrsim 2.

Keywords

Cite

@article{arxiv.cond-mat/0205629,
  title  = {Inter edge Tunneling in Quantum Hall Line Junctions},
  author = {Eun-Ah Kim and Eduardo Fradkin},
  journal= {arXiv preprint arXiv:cond-mat/0205629},
  year   = {2009}
}

Comments

17 pages, 8 figures