English

Non-invasive imaging through random media

Optics 2018-02-23 v1 Probability

Abstract

When waves propagate through a strongly scattering medium the energy is transferred to the incoherent wave part by scattering. The wave intensity then forms a random speckle pattern seemingly without much useful information. However, a number of recent physical experiments show how one can extract useful information from this speckle pattern. Here we present the mathematical analysis that explains the quite stunning performance of such a scheme for speckle imaging. Our analysis identifies a scaling regime where the scheme works well. This regime is the white-noise paraxial regime, which leads to the Ito-Schrodinger model for the wave amplitude. The results presented in this paper conform with the sophisticated physical intuition that has motivated these schemes, but give a more detailed characterization of the performance. The analysis gives a description of (i) the information that can be extracted and with what resolution (ii) the statistical stability or signal-to-noise ratio with which the information can be extracted.

Keywords

Cite

@article{arxiv.1802.07883,
  title  = {Non-invasive imaging through random media},
  author = {Josselin Garnier and Knut Solna},
  journal= {arXiv preprint arXiv:1802.07883},
  year   = {2018}
}
R2 v1 2026-06-23T00:29:39.586Z