Weak Field Phase Diagram for an Integer Quantum Hall Liquid
摘要
We study the localization properties in the transition from a two-dimensional electron gas at zero magnetic field into an integer quantum Hall (QH) liquid. By carrying out a direct calculation of the localization length for a finite size sample using a transfer matrix technique, we systematically investigate the field and disorder dependences of the metal-insulator transition in the weak field QH regime. We obtain a different phase diagram from the one conjectured in previous theoretical studies. In particular, we find that: (1) the extended state energy for each Landau level (LL) is {\it always} linear in magnetic field; (2) for a given Landau level and disorder configuration there exists a critical magnetic field below which the extended state disappears; (3) the lower LLs are more robust to the metal-insulator transition with smaller . We attribute the above results to strong LL coupling effect. Experimental implications of our work are discussed.
引用
@article{arxiv.cond-mat/9504010,
title = {Weak Field Phase Diagram for an Integer Quantum Hall Liquid},
author = {D. Z. Liu and X. C. Xie and Q. Niu},
journal= {arXiv preprint arXiv:cond-mat/9504010},
year = {2009}
}
备注
4 pages, ReVTeX 3.0, 4 figures (available upon request)