G. N. Katomeris, S. N. Evangelou
Published 1999-08-31Version 1
We examine the validity of the recently proposed semi-Poisson level spacing distribution function P(S), which characterizes `critical quantum chaos', in 2D disordered systems with spin-orbit coupling. At the Anderson transition we show that the semi-Poisson P(S) can describe closely the critical distribution obtained with averaged boundary conditions, over Dirichlet in one direction with periodic in the other and Dirichlet in both directions. We also obtain a sub-Poisson linear number variance $\Sigma_{2}(E)\approx \chi_{0}+ \chi E$, with asymptotic value $\chi\approx0.07$. The obtained critical statistics, intermediate between Wigner and Poisson, is relevant for disordered systems and chaotic models.
Comments: 4 pages with 5 figures
Effect of spin-orbit coupling in one-dimensional quasicrystals with power-law hopping
Generalized multifractality in 2D disordered systems of chiral symmetry classes
Conformal Algebras of 2D Disordered Systems
