中文

Semiclassical spatial correlations in chaotic wave functions

混沌动力学 2009-11-07 v1 凝聚态物理

摘要

We study the spatial autocorrelation of energy eigenfunctions ψn(q)\psi_n({\bf q}) corresponding to classically chaotic systems in the semiclassical regime. Our analysis is based on the Weyl-Wigner formalism for the spectral average Cϵ(q+,q,E)C_{\epsilon}({\bf q^{+}},{\bf q^{-}},E) of ψn(q+)ψn(q)\psi_n({\bf q}^{+})\psi_n^*({\bf q}^{-}), defined as the average over eigenstates within an energy window ϵ\epsilon centered at EE. In this framework CϵC_{\epsilon} is the Fourier transform in momentum space of the spectral Wigner function W(x,E;ϵ)W({\bf x},E;\epsilon). Our study reveals the chord structure that CϵC_{\epsilon} inherits from the spectral Wigner function showing the interplay between the size of the spectral average window, and the spatial separation scale. We discuss under which conditions is it possible to define a local system independent regime for CϵC_{\epsilon}. In doing so, we derive an expression that bridges the existing formulae in the literature and find expressions for Cϵ(q+,q,E)C_{\epsilon}({\bf q^{+}}, {\bf q^{-}},E) valid for any separation size q+q|{\bf q^{+}}-{\bf q^{-}}|.

关键词

引用

@article{arxiv.nlin/0108032,
  title  = {Semiclassical spatial correlations in chaotic wave functions},
  author = {Fabricio Toscano and Caio H. Lewenkopf},
  journal= {arXiv preprint arXiv:nlin/0108032},
  year   = {2009}
}

备注

24 pages, 3 figures, submitted to PRE