Momentum-Resolved Tunneling into Fractional Quantum Hall Edges

A. Altland; A.H. MacDonald; A.M. Chang; A.M. Chang; B. Kardynał; B.I. Halperin; C. Chamon; E. Shimshoni; E.E. Vdovin; F.D.M. Haldane; F.P. Milliken; J. Voit; J. von Delft; J.J. Palacios; J.K. Jain; J.P. Eisenstein; M. Fabrizio; M. Governale; M. Grayson; M. Grayson; M. Hilke; M. Huber; O.M. Auslaender; R.B. Laughlin; T. Jungwirth; U. Zülicke; U. Zülicke; U. Zülicke; V. Meden; W. Kang; X.G. Wen; X.G. Wen; X.G. Wen

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Momentum-Resolved Tunneling into Fractional Quantum Hall Edges

Authors: A. Altland
A.H. MacDonald
A.M. Chang
A.M. Chang
B. Kardynał
B.I. Halperin
C. Chamon
E. Shimshoni
E.E. Vdovin
F.D.M. Haldane
F.P. Milliken
J. Voit
J. von Delft
J.J. Palacios
J.K. Jain
J.P. Eisenstein
M. Fabrizio
M. Governale
M. Grayson
M. Grayson
M. Hilke
M. Huber
O.M. Auslaender
R.B. Laughlin
T. Jungwirth
U. Zülicke
U. Zülicke
U. Zülicke
V. Meden
W. Kang
X.G. Wen
X.G. Wen
X.G. Wen
Publication date: 25 January 2002
Publisher: 'American Physical Society (APS)'
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Abstract

Tunneling from a two-dimensional contact into quantum-Hall edges is considered theoretically for a case where the barrier is extended, uniform, and parallel to the edge. In contrast to previously realized tunneling geometries, details of the microscopic edge structure are exhibited directly in the voltage and magnetic-field dependence of the differential tunneling conductance. In particular, it is possible to measure the dispersion of the edge-magnetoplasmon mode, and the existence of additional, sometimes counterpropagating, edge-excitation branches could be detected.Comment: 4 pages, 3 figures, RevTex

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