Electrically tunable binary phase Fresnel lens based on a dielectric elastomer actuator

Suntak Park; Bongje Park; Saekwang Nam; Sungryul Yun; Seung Koo Park; Seongcheol Mun; Jeong Mook Lim; Yeonghwa Ryu; Seok Ho Song; Ki Uk Kyung

doi:10.1364/OE.25.023801

Electrically tunable binary phase Fresnel lens based on a dielectric elastomer actuator

Suntak Park, Bongje Park, Saekwang Nam, Sungryul Yun, Seung Koo Park, Seongcheol Mun, Jeong Mook Lim, Yeonghwa Ryu, Seok Ho Song, Ki Uk Kyung

Department of Data Science

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

We propose and demonstrate an all-solid-state tunable binary phase Fresnel lens with electrically controllable focal length. The lens is composed of a binary phase Fresnel zone plate, a circular acrylic frame, and a dielectric elastomer (DE) actuator which is made of a thin DE layer and two compliant electrodes using silver nanowires. Under electric potential, the actuator produces in-plane deformation in a radial direction that can compress the Fresnel zones. The electrically-induced deformation compresses the Fresnel zones to be contracted as high as 9.1% and changes the focal length, getting shorter from 20.0 cm to 14.5 cm. The measured change in the focal length of the fabricated lens is consistent with the result estimated from numerical simulation.

Original language	English
Pages (from-to)	23801-23808
Number of pages	8
Journal	Optics Express
Volume	25
Issue number	20
DOIs	https://doi.org/10.1364/OE.25.023801
State	Published - 2 Oct 2017

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title = "Electrically tunable binary phase Fresnel lens based on a dielectric elastomer actuator",

abstract = "We propose and demonstrate an all-solid-state tunable binary phase Fresnel lens with electrically controllable focal length. The lens is composed of a binary phase Fresnel zone plate, a circular acrylic frame, and a dielectric elastomer (DE) actuator which is made of a thin DE layer and two compliant electrodes using silver nanowires. Under electric potential, the actuator produces in-plane deformation in a radial direction that can compress the Fresnel zones. The electrically-induced deformation compresses the Fresnel zones to be contracted as high as 9.1% and changes the focal length, getting shorter from 20.0 cm to 14.5 cm. The measured change in the focal length of the fabricated lens is consistent with the result estimated from numerical simulation.",

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AU - Park, Suntak

AU - Park, Bongje

AU - Nam, Saekwang

AU - Yun, Sungryul

AU - Park, Seung Koo

AU - Mun, Seongcheol

AU - Lim, Jeong Mook

AU - Ryu, Yeonghwa

AU - Song, Seok Ho

AU - Kyung, Ki Uk

PY - 2017/10/2

Y1 - 2017/10/2

N2 - We propose and demonstrate an all-solid-state tunable binary phase Fresnel lens with electrically controllable focal length. The lens is composed of a binary phase Fresnel zone plate, a circular acrylic frame, and a dielectric elastomer (DE) actuator which is made of a thin DE layer and two compliant electrodes using silver nanowires. Under electric potential, the actuator produces in-plane deformation in a radial direction that can compress the Fresnel zones. The electrically-induced deformation compresses the Fresnel zones to be contracted as high as 9.1% and changes the focal length, getting shorter from 20.0 cm to 14.5 cm. The measured change in the focal length of the fabricated lens is consistent with the result estimated from numerical simulation.

AB - We propose and demonstrate an all-solid-state tunable binary phase Fresnel lens with electrically controllable focal length. The lens is composed of a binary phase Fresnel zone plate, a circular acrylic frame, and a dielectric elastomer (DE) actuator which is made of a thin DE layer and two compliant electrodes using silver nanowires. Under electric potential, the actuator produces in-plane deformation in a radial direction that can compress the Fresnel zones. The electrically-induced deformation compresses the Fresnel zones to be contracted as high as 9.1% and changes the focal length, getting shorter from 20.0 cm to 14.5 cm. The measured change in the focal length of the fabricated lens is consistent with the result estimated from numerical simulation.

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Electrically tunable binary phase Fresnel lens based on a dielectric elastomer actuator

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