Control optimization of spherical modal liquid crystal lenses | Zendy

Alexander F. Naumov | Zendy; Gordon D. Love | Zendy; Mikhail Loktev | Zendy; Fiodor L. Vladimirov | Zendy

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Control optimization of spherical modal liquid crystal lenses

Author(s) -

Alexander F. Naumov,

Gordon D. Love,

Mikhail Loktev,

Fiodor L. Vladimirov

Publication year - 1999

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.4.000344

Subject(s) - optics , lens (geology) , liquid crystal , harmonics , voltage , materials science , duty cycle , modal , focal length , phase (matter) , chromatic aberration , physics , chromatic scale , quantum mechanics , polymer chemistry

Liquid crystal modal lenses are switchable lenses with a continuous phase variation across the lens. A critical issue for such lenses is the minimization of phase aberrations. In this paper we present results of a simulation of control signals that have a range of harmonics. Experimental results using optimal sinusoidal and rectangular voltages are presented. A lack of uniqueness in the specification of the control voltage parameters is explained. The influence of a variable duty cycle of the control voltage on an adaptive lens is investigated. Finally we present experimental results showing a liquid crystal lens varying its focal length.

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