O. G. Balev, P. Vasilopoulos
Published 1998-07-30, updated 1998-08-05Version 2
Based on a microscopic evaluation of the local current density, a treatment of edge magnetoplasmons (EMP) is presented for confining potentials that allow Landau level (LL) flattening to be neglected. Mode damping due to electron-phonon interaction is evaluated. For nu=1, 2 there exist independent modes spatially symmetric or antisymmetric with respect to the edge. Certain modes, changing shape during propagation, are nearly undamped even for very strong dissipation and are termed edge helicons. For nu > 2 inter-LL Coulomb coupling leads to a strong repulsion of the decoupled LL fundamental modes. The theory agrees well with recent experiments.
Comments: 4 pages in Latex/Revtex/two-column format, 3 ps figures
Journal: Phys. Rev. Lett. 81, 1481 (1998)
Experimental realization of a Fabry-Perot-type interferometer by co-propagating edge states in the quantum Hall regime
Detection of Coulomb Charging around an Antidot in the Quantum Hall Regime
How robust is quantized transport through edge states of finite length: Imaging current density in Floquet topological vs. quantum spin and anomalous Hall insulators
