Abstract

The Wigner time delay, defined by the energy derivative of the total scattering phase shift, is an important spectral measure of an open quantum system characterizing the duration of the scattering event. It is proportional to the trace of the Wigner–Smith matrix Q that also encodes other time-delay characteristics. For chaotic cavities, these quantities exhibit universal fluctuations that are commonly described within random matrix theory. Here, we develop a new semiclassical approach to the time-delay matrix which is formulated in terms of the classical trajectories that connect the exterior and interior regions of the system. This approach is superior to previous treatments because it avoids the energy derivative. We demonstrate the methodʼs efficiency by going beyond previous work in establishing the universality of time-delay statistics for chaotic cavities with perfectly connected leads. In particular, the moment generating function of the proper time-delays (eigenvalues of Q) is found semiclassically for the first five orders in the inverse number of scattering channels for systems with and without time-reversal symmetry. We also show the equivalence of random matrix and semiclassical results for the second moments and for the variance of the Wigner time delay at any channel number.

Highlights

  • The concept of time delay plays an important and special role in quantum collision theory

  • We find identical results to random matrix theory (RMT) for the variance of the Wigner time delay and the second moment of the proper time-delays, and derive a new result for the variance of the diagonal elements

  • The method relies on the resonant representation of the Wigner-Smith time-delay matrix that has the advantage of not involving an energy derivative

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Summary

Introduction

The concept of time delay plays an important and special role in quantum collision theory. We derive yet another semiclassical approximation to the time delay which avoids using such an energy differentiation in the first place and significantly simplifies the semiclassical calculations It builds upon the resonant representation [64] of the matrix elements Qcc′ = b†cbc′ as the overlap of the internal parts b of the scattering wave functions in the incident channels c and c′. We provide several Appendices with more technical details of our calculations, including sums for systems with TRS and a comparison to previous approaches, which we believe may be helpful for further development and applications of the method

Resonance scattering approach
The semiclassical approximation
Diagonal approximation for the mean time delay
First off-diagonal corrections for the mean time delay
Higher off-diagonal corrections for the mean time delay
Diagrammatic rules for higher moments
Second moments
Counting diagrams in transport problems
Grouping diagrams
Manipulating diagrams in systems without TRS
The second moment of the proper time-delays
Variance of the Wigner time delay
Variance of the partial time-delays
Time-reversal symmetry
Moment generating functions
Subtrees
Leading order
Subleading order
Algorithmic approach
Conclusions and discussion
Orbit interpretation
A further sum
First relations
Second relation
Third relation
Fourth relation
Final results
The second moments
Spin-orbit interaction
Diagonal elements of the Wigner-Smith matrix and the partial time-delays
The second moment m2
The variance of the Wigner time delay

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