English

Spatial Resolution Enhancement in Quantum Imaging beyond the Diffraction Limit Using Entangled Photon-Number State

Quantum Physics 2008-12-12 v2

Abstract

In this paper we study the resolution of images illuminated by sources composed of N+1N+1 photons in which one non-degenerate photon is entangled with NN degenerate photons. The NN degenerate photons illuminate an object and are collected by an NN photon detector. The signal from the NN photon detector is measured in coincidence with the non-degenerate photon giving rise to a ghost image. We discuss the case of three photons in various configurations and generalize to N+1N+1. Using the Rayleigh criterion, we find that the system may give an improvement in resolution by a factor of NN compared to using a classical source. For the case that the NN-photon number detector is a point detector, a coherent image is obtained. If the NN-photon detector is a bucket detector, the image is incoherent. The visibility of the image in both cases is 1. In the opposite case in which the non-degenerate photon is scattered by the object, then, using an NN-photon point detector may reduce the Airy disk by a factor of NN.

Keywords

Cite

@article{arxiv.0812.2032,
  title  = {Spatial Resolution Enhancement in Quantum Imaging beyond the Diffraction Limit Using Entangled Photon-Number State},
  author = {Jianming Wen and Morton H. Rubin and Yanhua Shih},
  journal= {arXiv preprint arXiv:0812.2032},
  year   = {2008}
}

Comments

11 pages, 3 figures, has been submitted for publication. Comments are welcome

R2 v1 2026-06-21T11:50:35.527Z