Rong-Ying Yuan scite author profile

Rong-Ying Yuan

4Publications

38Citation Statements Received

9Citation Statements Given

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Affiliations

Beihang University, Sichuan University, Chengdu University of Information Technology

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Optofluidic lens based on electrowetting liquid piston

Yuan

Wang

et al. 2019

Sci Rep

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The conventional electrowetting lens usually has one tunable liquid-liquid (L-L) interface. The shape of L-L interface is deformed to get variable focal length due to electrowetting effect. However, contact angle saturation of the L-L interface is an unavoidable problem which prevents focal length from further changing. Here, we demonstrate an optofluidic lens based on electrowetting liquid piston. The proposed lens has two connected chambers, the piston chamber and the lens chamber to form a closed-loop fluidic system. The electrowetting liquid piston can generate clockwise and counter-clockwise liquid flows, which can make the L-L interface convex and concave. To prove the concept, we fabricate an optofluidic device whose shortest negative and positive focal lengths are ~−17.9 mm and ~18 mm with 5 mm aperture, respectively. The proposed optofluidic lens has large tunable focal length range. Widespread application of such an adaptive lens is foreseeable.

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Electrically optofluidic zoom system with a large zoom range and high-resolution image

Yuan

Wang

et al. 2017

Opt. Express

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We report an electrically controlled optofluidic zoom system which can achieve a large continuous zoom change and high-resolution image. The zoom system consists of an optofluidic zoom objective and a switchable light path which are controlled by two liquid optical shutters. The proposed zoom system can achieve a large tunable focal length range from 36mm to 92mm. And in this tuning range, the zoom system can correct aberrations dynamically, thus the image resolution is high. Due to large zoom range, the proposed imaging system incorporates both camera configuration and telescope configuration into one system. In addition, the whole system is electrically controlled by three electrowetting liquid lenses and two liquid optical shutters, therefore, the proposed system is very compact and free of mechanical moving parts. The proposed zoom system has potential to take place of conventional zoom systems.

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Optofluidic Zoom System Using Liquid Optical Path Switchers

Yuan

Luo

et al. 2018

IEEE Photon. Technol. Lett.

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High stability liquid lens with optical path modulation function

Wang

Yuan

et al. 2021

Opt. Express

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In this paper, a high stability liquid lens with optical path modulation function is designed and fabricated. The liquid lens has an outer chamber and an inner chamber, and the inner chamber has a structure with three annular anchoring layers. This structure can limit the sliding of the three-phase contact line under electrowetting effect and anchor the position of contact angle with a limited distance. The feasibility of this structure is verified by simulation and practice. The zoom imaging, contact angle, focal length and response time of the liquid lens are analyzed. The structure with three annular anchoring layers provides six anchored precision optical path modulation gears, and the optical path difference can be changed by mechanical hydraulic control, up to 1.17 mm. Widespread applications of the proposed liquid lens are foreseeable such as microscopic imaging and a telescope system, etc.

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Rong-Ying Yuan

Optofluidic lens based on electrowetting liquid piston

Electrically optofluidic zoom system with a large zoom range and high-resolution image

Optofluidic Zoom System Using Liquid Optical Path Switchers

High stability liquid lens with optical path modulation function

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