Enhancing parameter estimation precision in dissipative environment with two-photon driving
Quantum Physics
2020-07-01 v1
Abstract
We investigate the frequency estimation of an optical field suffering from an unavoidable dissipative environment. Generally, dissipative noises greatly reduce the precision. Here, we find that two-photon driving can improve the measurement precision by resisting the noises. Moreover, in long time, the uncertainty of frequency can be close to 0 with a proper magnitude of the parametric two-photon drive, which is in sharp contrast to the uncertainty going to infinity without the two-photon driving. Our results show that two-photon driving can realize the ultrasensitive measurement in dissipative environment under the long-encoding-time condition.
Cite
@article{arxiv.1908.03838,
title = {Enhancing parameter estimation precision in dissipative environment with two-photon driving},
author = {Dong Xie and Chunling Xu},
journal= {arXiv preprint arXiv:1908.03838},
year = {2020}
}
Comments
9 pages,1 figure