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Sensor Based on Extending the Concept of Fidelity to Classical Waves

Chaotic Dynamics 2009-09-28 v4
Authors: Biniyam Tesfaye Taddese , James Hart , Thomas M. Antonsen , Edward Ott , Steven M. Anlage
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Abstract

We propose and demonstrate a remote sensor scheme by applying the quantum mechanical concept of fidelity loss to classical waves. The sensor makes explicit use of time-reversal invariance and spatial reciprocity in a wave chaotic system to sensitively and remotely measure the presence of small perturbations. The loss of fidelity is measured through a classical wave-analog of the Loschmidt echo by employing a single-channel time-reversal mirror to rebroadcast a probe signal into the perturbed system. We also introduce the use of exponential amplification of the probe signal to partially overcome the effects of propagation losses and to vary the sensitivity.

Keywords

sensors and measurement signal processing and noise analysis quantum sensing and metrology

Cite

@article{arxiv.0812.1118,
  title  = {Sensor Based on Extending the Concept of Fidelity to Classical Waves},
  author = {Biniyam Tesfaye Taddese and James Hart and Thomas M. Antonsen and Edward Ott and Steven M. Anlage},
  journal= {arXiv preprint arXiv:0812.1118},
  year   = {2009}
}

Comments

4 pages, 2 figures

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