Temperature and ac Effects on Charge Transport in Metallic Arrays of
  Dots

A. Bezryadin; A. Pépin; A.A. Middleton; A.J. Rimberg; A.S. Cordan; C. J. Olson Reichhardt; C. Kurdak; C. Lebreton; C. Reichhardt; C. Reichhardt; C.I. Duruöz; C.J. Olson; C.J. Olson; C.T. Black; D.S. Fisher; D.S. Ginger; L. Clarke; L. Clarke; M.G. Ancona; M.N. Wybourne; N. Grønbech-Jensen; N.Y. Morgan; R. Parthasarathy; Y. Leroy

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Temperature and ac Effects on Charge Transport in Metallic Arrays of Dots

Authors: A. Bezryadin
A. Pépin
A.A. Middleton
A.J. Rimberg
A.S. Cordan
C. J. Olson Reichhardt
C. Kurdak
C. Lebreton
C. Reichhardt
C. Reichhardt
C.I. Duruöz
C.J. Olson
C.J. Olson
C.T. Black
D.S. Fisher
D.S. Ginger
L. Clarke
L. Clarke
M.G. Ancona
M.N. Wybourne
N. Grønbech-Jensen
N.Y. Morgan
R. Parthasarathy
Y. Leroy
Publication date: 1 January 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We investigate the effects of finite temperature, dc pulse, and ac drives on the charge transport in metallic arrays using numerical simulations. For finite temperatures there is a finite conduction threshold which decreases linearly with temperature. Additionally we find a quadratic scaling of the current-voltage curves which is independent of temperature for finite thresholds. These results are in excellent agreement with recent experiments on 2D metallic dot arrays. We have also investigated the effects of an ac drive as well as a suddenly applied dc drive. With an ac drive the conduction threshold decreases for fixed frequency and increasing amplitude and saturates for fixed amplitude and increasing frequency. For sudden applied dc drives below threshold we observe a long time power law conduction decay.Comment: 6 pages, 7 postscript figure

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