Nonlinear Sciences – Chaotic Dynamics
Scientific paper
2005-04-20
Nonlinear Sciences
Chaotic Dynamics
Scientific paper
10.1088/1367-2630/7/1/152
The concept of fidelity decay is discussed from the point of view of the scattering matrix, and the scattering fidelity is introduced as the parametric cross-correlation of a given S-matrix element, taken in the time domain, normalized by the corresponding autocorrelation function. We show that for chaotic systems, this quantity represents the usual fidelity amplitude, if appropriate ensemble and/or energy averages are taken. We present a microwave experiment where the scattering fidelity is measured for an ensemble of chaotic systems. The results are in excellent agreement with random matrix theory for the standard fidelity amplitude. The only parameter, namely the perturbation strength could be determined independently from level dynamics of the system, thus providing a parameter free agreement between theory and experiment.
Gorin Thomas
Schaefer Rudolf
Seligman Thomas H.
Stoeckmann Hans-Juergen
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