Physics – Condensed Matter
Scientific paper
1995-01-31
Phys. Rev. E52, 2220 (1995)
Physics
Condensed Matter
18 pages, RevTex, 15 figs. available on request from guarneri@mvcomo.fis.unico.it
Scientific paper
10.1103/PhysRevE.52.2220
A Fourier analysis of parametric level dynamics for random matrices periodically depending on a phase is developed. We demonstrate both theoretically and numerically that under very general conditions the correlation $C(\varphi )$ of level velocities is singular at $\varphi =0$ for any symmetry class; the singularity is revealed by algebraic tails in Fourier transforms, and is milder, the stronger the level repulsion in the chosen ensemble. The singularity is strictly connected with the divergence of the 2nd moments of level derivatives of appropriate order, and its type is specified to leading terms for Gaussian, stationary ensembles of GOE, GUE, GSE types, and for the Gaussian ensemble of Periodic Banded Random Matrices, in which a breaking of symmetry occurs. In the latter case, we examine the behaviour of correlations in the diffusive regime and in the localized one as well, finding a singularity like that of pure GUE cases. In all the considered ensembles we study the statistics of the Fourier coefficients of eigenvalues, which are Gaussian distributed for low harmonics, but not for high ones, and the distribution of kinetic energies.
Casati Giulio
Guarneri Italo
Molinari Luca
Zakrzewski Jakub
Zyczkowski Karol
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