F. Evers, A. D. Mirlin
Published 2007-07-30Version 1
The physics of Anderson transitions between localized and metallic phases in disordered systems is reviewed. The term ``Anderson transition'' is understood in a broad sense, including both metal-insulator transitions and quantum-Hall-type transitions between phases with localized states. The emphasis is put on recent developments, which include: multifractality of critical wave functions, criticality in the power-law random banded matrix model, symmetry classification of disordered electronic systems, mechanisms of criticality in quasi-one-dimensional and two-dimensional systems and survey of corresponding critical theories, network models, and random Dirac Hamiltonians. Analytical approaches are complemented by advanced numerical simulations.
Comments: 63 pages, 39 figures, submitted to Rev. Mod. Phys
Journal: Rev. Mod. Phys. 80, 1355 (2008)
Multifractality and critical fluctuations at the Anderson transition
Localization Length from Single-Particle Properties in Disordered Electronic Systems
Conductance statistics near the Anderson transition
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