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Ergodic Theorems for Quantum Trajectories under Disordered Generalized Measurements

Mathematical Physics 2025-01-31 v1 math.MP Quantum Physics

Abstract

We consider quantum trajectories arising from disordered, repeated generalized measurements, which have the structure of Markov chains in random environments (MCRE) with dynamically-defined transition probabilities; we call these disordered quantum trajectories. Under the assumption that the underlying disordered open quantum dynamical system approaches a unique equilibrium in time averages, we establish a strong law of large numbers for measurement outcomes arising from disordered quantum trajectories, which follows after we establish general annealed ergodic theorems for the corresponding MCRE. The type of disorder our model allows includes the random settings where the disorder is i.i.d. or Markovian, the periodic (resp. quasiperiodic) settings where the disorder has periodic (resp. quasiperiodic) structure, and the nonrandom setting where the disorder is constant through time. In particular, our work extends the earlier noise-free results of K\"ummerer and Maassen to the present disordered framework.

Keywords

Cite

@article{arxiv.2501.18014,
  title  = {Ergodic Theorems for Quantum Trajectories under Disordered Generalized Measurements},
  author = {Owen Ekblad and Eloy Moreno-Nadales and Lubashan Pathirana},
  journal= {arXiv preprint arXiv:2501.18014},
  year   = {2025}
}

Comments

21 pages; OE and EM-N supported in part by US National Science Foundation Grant No. DMS-2153946

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