We examine the influence of the edge electronic density profile and of
dissipation on edge magnetoplasmons in the quantum Hall regime, in a
semiclassical calculation. The equilibrium electron density on the edge,
obtained using a Thomas-Fermi approach, has incompressible stripes produced by
energy gaps responsible for the quantum Hall effect. We find that these stripes
have an unobservably small effect on the edge magnetoplasmons. But dissipation,
included phenomenologically in the local conductivity, proves to produce
significant oscillations in the strength and speed of edge magnetoplasmons in
the quantum Hall regime.Comment: 23 pages including 10 figure

A. M. Chang

A. V. Shytov

C. L. Kane

C. W. J. Beenakker

D. B. Chklovskii

F. P. Milliken

G. B. Ernst

G. Ernst

G. Vignale

I. L. Aleiner

J. J. Palacios

L. S. Levitov

M. D. Johnson

M. Grayson

M. I. Lubin

M. Stone

N. B. Zhitenev

R. C. Ashoori

U. Zülicke

V. A. Volkov

X. G. Wen

English

arXiv

Crossref

Dynamics of dissipative quantum Hall edges

We examine the influence of the edge electronic density profile and of dissipation on edge magnetoplasmons in the quantum Hall regime, in a semiclassical calculation. The equilibrium electron density on the edge, obtained using a Thomas-Fermi approach, has incompressible stripes produced by energy gaps responsible for the quantum Hall effect. We find that these stripes have an unobservably small effect on the edge magnetoplasmons. But dissipation, included phenomenologically in the local conductivity, proves to produce significant oscillations in the strength and speed of edge magnetoplasmons in the quantum Hall regime. © 2003 The American Physical Society

Johnson, M. D.

Vignale, G.

University of Central Florida (UCF): STARS (Showcase of Text, Archives, Research & Scholarship)

Dynamics Of Dissipative Quantum Hall Edges

URL:http://link.aps.org/doi/10.1103/PhysRevB.67.205332
DOI:10.1103/PhysRevB.67.205332We examine the influence of the edge electronic density profile and of dissipation on edge magnetoplasmons in the quantum Hall regime, in a semiclassical calculation. The equilibrium electron density on the edge, obtained using a Thomas-Fermi approach, has incompressible stripes produced by energy gaps responsible for the quantum Hall effect. We find that these stripes have an unobservably small effect on the edge magnetoplasmons. But dissipation, included phenomenologically in the local conductivity, proves to produce significant oscillations in the strength and speed of edge magnetoplasmons in the quantum Hall regime.This work was supported by the NSF under Grants No. DMR-9972683 and DMR-0074959

Vignale, Giovanni, 1957-

University of Missouri: MOspace

Physical Review B

https://mospace.umsystem.edu/xmlui/bitstream/10355/7795/1/DynamicsDissipativeQuantumHallEdges.pdf

Dynamics of Dissipative Quantum Hall Edges

Dynamics of Dissipative Quantum Hall Edges

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Crossref

University of Central Florida (UCF): STARS (Showcase of Text, Archives, Research & Scholarship)

Crossref

University of Missouri: MOspace