High Magnetic Field Microwave Conductivity of 2D Electrons in an Array
  of Antidots

A. Lorke; A.M. Chang; B.I. Halperin; C.-C. Li; D. C. Tsui; D. Weiss; D.B. Chklovskii; D.C. Tsui; Eyal Goldmann; G. A. Vawter; G. Ernst; I. Grodnensky; J. A. Simmons; J. L. Reno; J. R. Wendt; J. Wilke; J.H. Smet; K. Kern; L. W. Engel; L.W. Engel; L.W. Engel; M. Grayson; N.Q. Balaban; O. Heinonen; P. D. Ye; R.C. Ashoori; S.J. Allen, Jr.; S.M. Reimann; T. Demel; W. Kang; W. Kohn; X.G. Wen; Xin Wan; Y. Zhao

research

High Magnetic Field Microwave Conductivity of 2D Electrons in an Array of Antidots

Authors: A. Lorke
A.M. Chang
B.I. Halperin
C.-C. Li
D. C. Tsui
D. Weiss
D.B. Chklovskii
D.C. Tsui
Eyal Goldmann
G. A. Vawter
G. Ernst
I. Grodnensky
J. A. Simmons
J. L. Reno
J. R. Wendt
J. Wilke
J.H. Smet
K. Kern
L. W. Engel
L.W. Engel
L.W. Engel
M. Grayson
N.Q. Balaban
O. Heinonen
P. D. Ye
R.C. Ashoori
Jr. S.J. Allen
S.M. Reimann
T. Demel
W. Kang
W. Kohn
X.G. Wen
Xin Wan
Y. Zhao
Publication date: 6 March 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We measure the high magnetic field (

B

) microwave conductivity, Re

\sigma_{xx}

, of a high mobility 2D electron system containing an antidot array. Re

\sigma_{xx}

vs frequency (

f

) increases strongly in the regime of the fractional quantum Hall effect series, with Landau filling

1/3<\nu<2/3

. At microwave

f

, Re

\sigma_{xx}

vs

B

exhibits a broad peak centered around

\nu=1/2

. On the peak, the 10 GHz Re

\sigma_{xx}

can exceed its dc-limit value by a factor of 5. This enhanced microwave conductivity is unobservable for temperature

T \gtrsim 0.5

K, and grows more pronounced as

T

is decreased. The effect may be due to excitations supported by the antidot edges, but different from the well-known edge magnetoplasmons.Comment: 4 pages, 3 figures, revtex

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