Odd-Order Aberration-Cancellation in Correlated-Photon Imaging
D.S. Simon, A.V. Sergienko
TL;DR
This paper presents a correlated-photon imaging method that cancels odd-order optical aberrations using both quantum-entangled and classical light sources, improving image quality in optical systems.
Contribution
It introduces a novel imaging technique that achieves aberration cancellation with both quantum and classical correlated light sources.
Findings
Effective cancellation of odd-order aberrations demonstrated
Applicable to both quantum-entangled and classical light sources
Enhances image clarity in optical systems
Abstract
We discuss a correlated two-photon imaging apparatus that is capable of producing images that are free of the effects of odd-order aberration introduced by the optical system. We show that both quantum-entangled and classically correlated light sources are capable of producing the desired spatial-aberration cancelation.
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