English

Cross-Section Fluctuations in Chaotic Scattering Systems

Chaotic Dynamics 2016-10-19 v2

Abstract

Exact analytical expressions for the cross-section correlation functions of chaotic scattering sys- tems have hitherto been derived only under special conditions. The objective of the present article is to provide expressions that are applicable beyond these restrictions. The derivation is based on a statistical model of Breit-Wigner type for chaotic scattering amplitudes which has been shown to describe the exact analytical results for the scattering (S)-matrix correlation functions accurately. Our results are given in the energy and in the time representations and apply in the whole range from isolated to overlapping resonances. The S-matrix contributions to the cross-section correla- tions are obtained in terms of explicit irreducible and reducible correlation functions. Consequently, the model can be used for a detailed exploration of the key features of the cross-section correlations and the underlying physical mechanisms. In the region of isolated resonances, the cross-section correlations contain a dominant contribution from the self-correlation term. For narrow states the self-correlations originate predominantly from widely spaced states with exceptionally large partial width. In the asymptotic region of well-overlapping resonances, the cross-section autocorrelation functions are given in terms of the S-matrix autocorrelation functions. For inelastic correlations, in particular, the Ericson fluctuations rapidly dominate in that region. Agreement with known analytical and with experimental results is excellent.

Keywords

Cite

@article{arxiv.1605.07217,
  title  = {Cross-Section Fluctuations in Chaotic Scattering Systems},
  author = {Torleif Ericson and Barbara Dietz and Achim Richter},
  journal= {arXiv preprint arXiv:1605.07217},
  year   = {2016}
}
R2 v1 2026-06-22T14:07:42.436Z