Compound liquid crystal microlens array with convergent and divergent functions

Shengwu Kang; Xinyu Zhang

doi:10.1364/AO.55.003333

Applied Optics
Vol. 55,
Issue 12,
pp. 3333-3338
(2016)
•https://doi.org/10.1364/AO.55.003333

Compound liquid crystal microlens array with convergent and divergent functions

Shengwu Kang and Xinyu Zhang

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Shengwu Kang and Xinyu Zhang, "Compound liquid crystal microlens array with convergent and divergent functions," Appl. Opt. 55, 3333-3338 (2016)

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Abstract

Based on the common liquid crystal microlens, a new compound structure for a liquid crystal (LC) microlens array is proposed. The structure consists of two sub LC microlens arrays with properties of light divergence and convergence. The structure has two LC layers: one to form the positive sub lens, one for the negative. The patterned electrode and plane electrode are used in both sub microlens arrays. When two sub microlens arrays are electrically controlled separately, they can diverge or converge the incident light, respectively. As two sub microlens arrays are both applied on the voltage, the focal length of the compound LC microlens becomes larger than that of the LC microlens with a single LC layer. Another feature of a compound LC microlens array is that it can make the target contour become visible under intense light. The mechanisms are described in detail, and the experimental data are given.

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Voltage Loaded on the Positive Sub Lens $(O ϕ)$	Voltage Loaded on the Negative Sub Lens $(O_{1} ϕ_{1})$	Focal Length of Compound LC Microlens
$V_{p}$	0	$f$
$V_{p}$	$V_{N 1}$	$f_{1} (> f)$
$V_{p}$	$V_{N 2} (> V_{N 2})$	$f_{2} (> f_{1})$

Voltage Loaded on the Positive Sub Lens $(O_{1} ϕ_{1})$	Voltage Loaded on the Negative Sub Lens $(O ϕ)$	Focal Length of Compound LC Microlens
$V_{p 1}$	0	$f$
$V_{p 1}$	$V_{N}$	$f_{1} (> f)$
$V_{p 2} (< V_{p 1})$	$V_{N}$	$f_{2} (> f_{1})$

	Amplitude of Voltage Loaded on
The Intensity of Incident Light $(mW / {cm}^{2})$	positive microlens $V_{P} (V_{rms})$	negative microlens $V_{N} (V_{rms})$	Full Width at Half-maximum FWHM (μm)
1000	5.4	0.0	12.5
1000	5.4	50.0	15.3
800	5.2	0.0	8.5
800	5.2	47.2	11.2
600	5.1	0.0	8.1
600	5.1	48.4	10.4
400	4.9	0.0	7.3
400	4.9	45.0	9.5
200	4.2	0.0	6.1
200	4.1	40.7	8.2

Voltage Loaded on the Positive Sub Lens $(O ϕ)$	Voltage Loaded on the Negative Sub Lens $(O_{1} ϕ_{1})$	Focal Length of Compound LC Microlens
$V_{p}$	0	$f$
$V_{p}$	$V_{N 1}$	$f_{1} (> f)$
$V_{p}$	$V_{N 2} (> V_{N 2})$	$f_{2} (> f_{1})$

Voltage Loaded on the Positive Sub Lens $(O_{1} ϕ_{1})$	Voltage Loaded on the Negative Sub Lens $(O ϕ)$	Focal Length of Compound LC Microlens
$V_{p 1}$	0	$f$
$V_{p 1}$	$V_{N}$	$f_{1} (> f)$
$V_{p 2} (< V_{p 1})$	$V_{N}$	$f_{2} (> f_{1})$

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Applied Optics