Nonlocal Optical Real Image Formation Theory

TL;DR

This paper develops a nonlocal quantum physics-based theory of optical real image formation, revealing that photons' wave-particle duality and nonlocality fundamentally influence image resolution and object-image field depths.

Contribution

It introduces a novel nonlocal theory linking quantum physics to optical image formation, challenging traditional local models and proposing no fundamental resolution limit via reference distribution real image formation.

Findings

Photons are nonlocal quantum objects involved in image formation.

Object and image field depths differ significantly from traditional views.

Real image formation can achieve unlimited resolution using RIF.

Abstract

A nonlocal theory of optical real image formation is developed from the basic quantum physics linked to an optical real image formation apparatus. Optical real images are formed by photons. Photons are nonlocal quantum objects that exhibit wave-like properties and particle-like properties. Optical real image formation is nonlocal because at least two separated object points illuminated by a single photon are required for real image formation. When the distance between the illuminated points exceeds twice the wavelength of the light used two equi-amplitude plane waves propagate independently away from the object plane toward the imaging system. Propagation of photons away from a single point in the aperture plane does not occur. Photons with spatial frequencies that are within the passband of the imaging system pass through the imaging system. Each plane wave pair that propagates through the imaging system ultimately arrives at the image plane. At the image plane each plane wave pair overlaps to form an image of its associated pair of initial points on the object plane and thus contributes to real image formation. Object and image field depths are treated and found to be very different than they are ordinarily thought to be. Resolution limits related to real image formation are investigated. Reference distribution real image formation (RIF) is introduced. Real image formation with no fundamental resolution limit is predicted to be achievable by means of RIF.