2D Metal-Insulator transition as a percolation transition

2); (2) Sandia National Laboratories; (3) Bell Laboratories; Department of Physics; E. H. Hwang (1); J. L. Reno (2) ((1) Condensed Matter Theory Center; K. W. West (3); L. N. Pfeiffer (3); Lucent Technologies); M. P. Lilly (2)

arxiv: cond-mat/0406655 · v1 · submitted 2004-06-25 · ❄️ cond-mat.mes-hall · cond-mat.dis-nn

2D Metal-Insulator transition as a percolation transition

S. Das Sarma (1 , 2) , M. P. Lilly (2) , E. H. Hwang (1) , L. N. Pfeiffer (3) , K. W. West (3) , J. L. Reno (2) ((1) Condensed Matter Theory Center , Department of Physics

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University of Maryland (2) Sandia National Laboratories (3) Bell Laboratories Lucent Technologies)

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classification ❄️ cond-mat.mes-hall cond-mat.dis-nn

keywords transitionpercolationconductivitydensityexponentmetal-insulatorsystemanalyzing

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By carefully analyzing the low temperature density dependence of 2D conductivity in undoped high mobility n-GaAs heterostructures, we conclude that the 2D metal-insulator transition in this system is a density inhomogeneity driven percolation transition due to the breakdown of screening in the random charged impurity disorder background. In particular, our measured conductivity exponent of $\sim 1.4$ approaches the 2D percolation exponent value of 4/3 at low temperatures and our experimental data are inconsistent with there being a zero-temperature quantum critical point in our system.

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2D Metal-Insulator transition as a percolation transition

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