English

Threshold for a discrete-variable sensor of quantum reservoirs

Quantum Physics 2021-05-21 v2

Abstract

Quantum sensing employs quantum resources of a sensor to attain a smaller estimation error of physical quantities than the limit constrained by classical physics. To measure a quantum reservoir, which is significant in decoherence control, a nonunitary-encoding sensing scheme becomes necessary. However, previous studies showed that the reservoir-induced degradation to quantum resources of the sensor makes the errors divergent with the increase of encoding time. We here propose a scheme to use NN two-level systems as the sensor to measure a quantum reservoir. A threshold, above which the shot-noise-limited sensing error saturates or even persistently decreases with the encoding time, is uncovered. Our analysis reveals that it is due to the formation of a bound state of the total sensor-reservoir system. Solving the outstanding error-divergency problem in previous studies, our result supplies an insightful guideline in realizing a sensitive measurement of quantum reservoirs.

Keywords

Cite

@article{arxiv.2102.00609,
  title  = {Threshold for a discrete-variable sensor of quantum reservoirs},
  author = {Wei Wu and Zhen Peng and Si-Yuan Bai and Jun-Hong An},
  journal= {arXiv preprint arXiv:2102.00609},
  year   = {2021}
}
R2 v1 2026-06-23T22:42:32.260Z