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Time-symmetric correlations for open quantum systems

Quantum Physics 2024-07-17 v1 Information Theory General Relativity and Quantum Cosmology High Energy Physics - Theory math.IT

Abstract

Two-time expectation values of sequential measurements of dichotomic observables are known to be time symmetric for closed quantum systems. Namely, if a system evolves unitarily between sequential measurements of dichotomic observables OA\mathscr{O}_{A} followed by OB\mathscr{O}_{B}, then it necessarily follows that OA,OB=OB,OA\langle\mathscr{O}_{A}\,,\mathscr{O}_{B}\rangle=\langle\mathscr{O}_{B}\,,\mathscr{O}_{A}\rangle, where OA,OB\langle\mathscr{O}_{A}\,,\mathscr{O}_{B}\rangle is the two-time expectation value corresponding to the product of the measurement outcomes of OA\mathscr{O}_{A} followed by OB\mathscr{O}_{B}, and OB,OA\langle\mathscr{O}_{B}\,,\mathscr{O}_{A}\rangle is the two-time expectation value associated with the time reversal of the unitary dynamics, where a measurement of OB\mathscr{O}_{B} precedes a measurement of OA\mathscr{O}_{A}. In this work, we show that a quantum Bayes' rule implies a time symmetry for two-time expectation values associated with open quantum systems, which evolve according to a general quantum channel between measurements. Such results are in contrast with the view that processes associated with open quantum systems -- which may lose information to their environment -- are not reversible in any operational sense. We give an example of such time-symmetric correlations for the amplitude-damping channel, and we propose an experimental protocol for the potential verification of the theoretical predictions associated with our results.

Keywords

Cite

@article{arxiv.2407.11123,
  title  = {Time-symmetric correlations for open quantum systems},
  author = {Arthur J. Parzygnat and James Fullwood},
  journal= {arXiv preprint arXiv:2407.11123},
  year   = {2024}
}

Comments

17 pages, 5 figures. Comments welcome!

R2 v1 2026-06-28T17:42:01.060Z