Hamid R. Maei scite author profile

Hamid R. Maei

2Publications

39Citation Statements Received

92Citation Statements Given

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Brandeis University

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Correlated quantum percolation in the lowest Landau level

Sandler¹,

Maei²,

Kondev³

2004

Phys. Rev. B

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Our understanding of localization in the integer quantum Hall effect is informed by a combination of semi-classical models and percolation theory. Motivated by the effect of correlations on classical percolation we study numerically electron localization in the lowest Landau level in the presence of a power-law correlated disorder potential. Careful comparisons between classical and quantum dynamics suggest that the extended Harris criterion is applicable in the quantum case. This leads to a prediction of new localization quantum critical points in integer quantum Hall systems with powerlaw correlated disorder potentials. We demonstrate the stability of these critical points to addition of competing short-range disorder potentials, and discuss possible experimental realizations.

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Quantum and classical localization in the lowest Landau level

2003

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Spatial correlations of occupation probabilities, if their decay is not too fast, can change the critical exponents for classical percolation. From numerical studies of electron dynamics in the lowest Landau level (LLL) we demonstrate the quantum analog of this effect. Similar to classical percolation, we find that the extended Harris criterion applies to localization in the LLL. These results suggest experiments that might probe new quantum critical points in the integer quantum Hall setting.Comment: 4 pages, 3 figure

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Hamid R. Maei

Correlated quantum percolation in the lowest Landau level

Quantum and classical localization in the lowest Landau level

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