Negative Electron-electron Drag Between Narrow Quantum Hall Channels
摘要
Momentum transfer due to Coulomb interaction between two parallel, two-dimensional, narrow, and spatially separated layers, when a current I_{drive} is driven through one layer, is studied in the presence of a perpendicular magnetic field B. The current induced in the drag layer, I_{drag}, is evaluated self-consistently with I_{drive} as a parameter. I_{drag} can be positive or negative depending on the value of the filling factor \nu of the highest occupied bulk Landau level (LL). For a fully occupied LL, I_{drag} is negative, i.e., it flows opposite to I_{drive}, whereas it is positive for a half-filled LL. When the circuit is opened in the drag layer, a voltage \Delta V_{drag} develops in it; it is negative for a half-filled LL and positive for a fully occupied LL. This positive \Delta V_{drag}, expressing a negative Coulomb drag, results from energetically favored near-edge inter-LL transitions that occur when the highest occupied bulk LL and the LL just above it become degenerate.
引用
@article{arxiv.cond-mat/9711144,
title = {Negative Electron-electron Drag Between Narrow Quantum Hall Channels},
author = {H. C. W. Tso and D. J. W. Geldart and P. Vasilopoulos},
journal= {arXiv preprint arXiv:cond-mat/9711144},
year = {2009}
}
备注
Text file in Latex/Revtex/preprint format, 7 separate PS figures, Physical Review B, in press