Quantum Chaos and Coherence: Random Parametric Quantum Channels
Quantum Physics
2024-08-28 v3 Statistical Mechanics
High Energy Physics - Theory
Mathematical Physics
math.MP
Abstract
The survival probability of an initial Coherent Gibbs State (CGS) is a natural extension of the Spectral Form Factor (SFF) to open quantum systems. To quantify the interplay between quantum chaos and decoherence away from the semi-classical limit, we investigate the relation of this generalized SFF with the corresponding -norm of coherence. As a working example, we introduce Parametric Quantum Channels (PQC), a discrete-time model of unitary evolution mixed with the effects of measurements or transient interactions with an environment. The Energy Dephasing (ED) dynamics arises as a specific case in the Markovian limit. We demonstrate our results in a series of random matrix models.
Cite
@article{arxiv.2305.19326,
title = {Quantum Chaos and Coherence: Random Parametric Quantum Channels},
author = {Apollonas S. Matsoukas-Roubeas and Tomaž Prosen and Adolfo del Campo},
journal= {arXiv preprint arXiv:2305.19326},
year = {2024}
}
Comments
17 pages, 13 figures