One-parameter Superscaling at the Metal-Insulator Transition in Three Dimensions
Abstract
Based on the spectral statistics obtained in numerical simulations on three dimensional disordered systems within the tight--binding approximation, a new superuniversal scaling relation is presented that allows us to collapse data for the orthogonal, unitary and symplectic symmetry (β=1,2,4) onto a single scaling curve. This relation provides a strong evidence for one-parameter scaling existing in these systems which exhibit a second order phase transition. As a result a possible one-parameter family of spacing distribution functions, Pg(s), is given for each symmetry class β, where g is the dimensionless conductance.
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