English

Nonparaxial phasor-field propagation

Optics 2020-10-28 v2

Abstract

Growing interest in non-line-of-sight (NLoS) imaging, colloquially referred to as "seeing around corners", has led to the development of phasor-field (P\mathcal{P}-field) imaging, wherein the field envelope of amplitude-modulated spatially-incoherent light is manipulated like an optical wave to directly probe a space that is otherwise shielded from view by diffuse scattering. Recently, we have established a paraxial theory for P\mathcal{P}-field imaging in a transmissive geometry that is a proxy for three-bounce NLoS imaging [J. Dove and J. H. Shapiro, Opt. Express {\bf 27}(13) 18016--18037 (2019)]. Our theory, which relies on the Fresnel diffraction integral, introduces the two-frequency spatial Wigner distribution (TFSWD) to efficiently account for specularities and occlusions that may be present in the hidden space and cannot be characterized with P\mathcal{P}-field formalism alone. However, because the paraxial assumption is likely violated in many, if not most, NLoS scenarios, in the present paper we overcome that limitation by deriving a nonparaxial propagation formula for the P\mathcal{P} field using the Rayleigh--Sommerfeld diffraction integral. We also propose a Rayleigh--Sommerfeld propagation formula for the TFSWD and provide a derivation that is valid under specific partial-coherence conditions. Finally, we report a pair of differential equations that characterize free-space TFSWD propagation without restriction.

Keywords

Cite

@article{arxiv.2006.13775,
  title  = {Nonparaxial phasor-field propagation},
  author = {Justin Dove and Jeffrey H. Shapiro},
  journal= {arXiv preprint arXiv:2006.13775},
  year   = {2020}
}

Comments

26 pages, 2 figures

R2 v1 2026-06-23T16:35:32.542Z