Mathematical method for designing superresolution lenses using superoscillations

Matt K. Smith; Greg Gbur

doi:10.1364/OL.388252

Optics Letters
Vol. 45,
Issue 7,
pp. 1854-1857
(2020)
•https://doi.org/10.1364/OL.388252

Mathematical method for designing superresolution lenses using superoscillations

Matt K. Smith and Greg Gbur

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Matt K. Smith and Greg Gbur, "Mathematical method for designing superresolution lenses using superoscillations," Opt. Lett. 45, 1854-1857 (2020)

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- Diffraction and Gratings
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About this Article
History
- Original Manuscript: January 27, 2020
- Revised Manuscript: February 19, 2020
- Manuscript Accepted: February 20, 2020
- Published: March 20, 2020

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Abstract

We use a new mathematical method to design a superresolution lens using a superoscillation technique based on polynomial roots. We walk through an example of the method using simulations. Our method allows for ease of design by being mathematically and conceptually simpler than other methods.

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Lens radius $a$	0.635 cm
Focal length $f$	13 mm
Object distance $d_{o}$	65 mm
Image distance $d_{I}$	16.25 mm
Light wavelength $λ_{0}$	385 nm
First zero ring radius $Δ_{UL}$	603 nm

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Optics Letters