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Liquid Crystals Volume 47, 2020 - Issue 4
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Article

Adaptive nematic liquid crystal lens array with resistive layer

Fan ChuSchool of Electronics and Information Engineering, Sichuan University, Chengdu, ChinaView further author information
,
Li-Lan TianSchool of Electronics and Information Engineering, Sichuan University, Chengdu, ChinaView further author information
,
Rui LiSchool of Electronics and Information Engineering, Sichuan University, Chengdu, ChinaView further author information
,
Xiao-Qing GuSchool of Electronics and Information Engineering, Sichuan University, Chengdu, ChinaView further author information
,
Xiang-Yu ZhouSchool of Electronics and Information Engineering, Sichuan University, Chengdu, ChinaView further author information
,
Di WangSchool of Instrumentation and Optoelectronic Engineering, Beihang University, Beijing, ChinaView further author information
&
Qiong-Hua WangSchool of Instrumentation and Optoelectronic Engineering, Beihang University, Beijing, ChinaCorrespondence[email protected]
View further author information
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Pages 563-571 | Received 15 Jul 2019, Accepted 28 Aug 2019, Published online: 05 Sep 2019
 
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ABSTRACT

We propose an adaptive nematic liquid crystal (LC) lens array using a dielectric layer with low dielectric constant as resistive layer. With the resistive layer and periodic-arranged iridium tin oxide (ITO) electrodes, the vertical electric field across the LC layer varies linearly over the lens aperture is obtained in the voltage-on state. As a result, a centrosymmetric gradient refractive index profile within the LC layer is generated, which causes the focusing behaviour. As a result of the optimisation, a thin cell gap which greatly reduces the switching time of the LC lens array can be achieved in our design. The main advantages of the proposed LC lens array are in the comparatively low operating voltage, the flat substrate surface, the simple electrodes, and the uniform LC cell gap. The simulation results show that the focal length of the LC lens array can be tuned continuously from infinity to 3.99 mm by changing the applied voltage.

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Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This work was supported by the National Natural Science Foundation of China under Grand No. [61535007].

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