Alexander Croy, Rudolf A. Roemer, Michael Schreiber
Published 2006-02-13Version 1
In this paper we will investigate whether the scaling assumptions made in previous studies for the transition at energies outside the band centre can be reconfirmed in numerical calculations, and in particular whether the conductivity sigma follows a power law close to the critical energy E_c. For this purpose we will use the recursive Green's function method to calculate the four-terminal conductance of a disordered system for fixed disorder strength at temperature T=0. Applying the finite-size scaling analysis we will compute the critical exponent and determine the mobility edge, i.e. the MIT outside the band centre.
Comments: 24 LaTeX pages in Springer Lecture Notes format (sv* files enclosed), 13 figures, paper will appear as a chapter in "Lecture Notes in Computational Science and Engineering" (Springer, Berlin)
Journal: "Parallel Algorithms and Cluster Computing", Lecture Notes in Computational Science and Engineerings (K. Hoffman, A. Meyer, eds.) Springer, Berlin, pp. 203-226 (2006)
Behavior of the thermopower in amorphous materials at the metal-insulator transition
Energy level statistics at the metal-insulator transition in the Anderson model of localization with anisotropic hopping
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