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Quantum plasmonic sensing using single photons

Quantum Physics 2018-10-29 v2 Optics

Abstract

Reducing the noise below the shot-noise limit in sensing devices is one of the key promises of quantum technologies. Here, we study quantum plasmonic sensing based on an attenuated total reflection configuration with single photons as input. Our sensor is the Kretschmann configuration with a gold film, and a blood protein in an aqueous solution with different concentrations serves as an analyte. The estimation of the refractive index is performed using heralded single photons. We also determine the estimation error from a statistical analysis over a number of repetitions of identical and independent experiments. We show that the errors of our plasmonic sensor with single photons are below the shot-noise limit even in the presence of various experimental imperfections. Our results demonstrate a practical application of quantum plasmonic sensing is possible given certain improvements are made to the setup investigated, and pave the way for a future generation of quantum plasmonic applications based on similar techniques.

Keywords

Cite

@article{arxiv.1806.10300,
  title  = {Quantum plasmonic sensing using single photons},
  author = {Joong-Sung Lee and Seung-Jin Yoon and Hyungju Rah and Mark Tame and Carsten Rockstuhl and Seok Ho Song and Changhyoup Lee and Kwang-Geol Lee},
  journal= {arXiv preprint arXiv:1806.10300},
  year   = {2018}
}

Comments

11 pages, 3 figures

R2 v1 2026-06-23T02:43:03.786Z