Inter edge Tunneling in Quantum Hall Line Junctions

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 1 the effects of the Coulomb interactions move the system deep into strong tunneling regime, by reducing the magnitude of the Luttinger parameter K, leading to the appearance of a zero-bias differential conductance peak of magnitude Gt=Ke2/h at zero temperature. The abrupt appearance of the zero bias peak as the filling factor is increased past a value * 1, and its gradual disappearance thereafter can be understood as a crossover controlled by the main energy scales of this system: the bias voltage V, the crossover scale TK, and the temperature T. The low height of the zero bias peak 0.1e2/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 2 can be explained as an effect caused by spin reversed electrons, i. e. if the 2DEG is assumed to have a small polarization near 2. We also predict that as the temperature is lowered * 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 2.

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