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Numerical Optical Centroid Measurements

Quantum Physics 2017-01-06 v1

Abstract

Optical imaging methods are typically restricted to a resolution of order of the probing light wavelength λp\lambda_p by the Rayleigh diffraction limit. This limit can be circumvented by making use of multiphoton detection of correlated NN-photon states, having an effective wavelength λp/N\lambda_p/N. But the required NN-photon detection usually renders these schemes impractical. To overcome this limitation, recently, so-called optical centroid measurements (OCM) have been proposed which replace the multi-photon detectors by an array of single-photon detectors. Complementary to the existing approximate analytical results, we explore the approach using numerical experiments by sampling and analyzing detection events from the initial state wave function. This allows us to quantitatively study the approach also beyond the constraints set by the approximate analytical treatment, to compare different detection strategies, and to analyze other classes of input states.

Keywords

Cite

@article{arxiv.1301.0774,
  title  = {Numerical Optical Centroid Measurements},
  author = {Qurrat-ul-Ain Gulfam and Jörg Evers},
  journal= {arXiv preprint arXiv:1301.0774},
  year   = {2017}
}

Comments

15 pages, 18 figures

R2 v1 2026-06-21T23:04:04.872Z