Tunable fiber attenuator for electrically wet-driven micromirrors

Tao Chen; Tao Chen; Zhengxuan Yang; Zhenqin Zhang; Zhen Zhao; Jianfei Guan; Jing Chen; Rongqing Xu

doi:10.1364/AO.521732

Applied Optics
Vol. 63,
Issue 12,
pp. 3272-3276
(2024)
•https://doi.org/10.1364/AO.521732

Tunable fiber attenuator for electrically wet-driven micromirrors

Tao Chen, Zhengxuan Yang, Zhenqin Zhang, Zhen Zhao, Jianfei Guan, Jing Chen, and Rongqing Xu

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Tao Chen, Zhengxuan Yang, Zhenqin Zhang, Zhen Zhao, Jianfei Guan, Jing Chen, and Rongqing Xu, "Tunable fiber attenuator for electrically wet-driven micromirrors," Appl. Opt. 63, 3272-3276 (2024)

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Related Topics
Table of Contents Category
- Fiber Optics, Fiber Sensors, and Optical Communications
Optics & Photonics Topics
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The topics in this list come from the Optics and Photonics Topics applied to this article.

About this Article
History
- Original Manuscript: February 18, 2024
- Revised Manuscript: March 26, 2024
- Manuscript Accepted: March 28, 2024
- Published: April 16, 2024

Abstract

Herein we report an electronically controlled tunable fiber-optic attenuator that leverages the microfluidic electro-wetting effect, which enables a fine-tuning of the solid-liquid interface wetting angle to control the micro-reflector, thus regulating the lens fiber coupling efficiency. Theoretical calculations indicated an optical attenuation regulation effect of 0–45.0 dB in the voltage range of 0–30.0 V. Experimental results align closely with theoretical calculations, demonstrating an attenuation range of 0.59–43.0 dB within a voltage variation range of 0–25.0 V, with control accuracy of 0.56 dB. Our study unveils the potential for designing fiber-optic attenuators with varying tuning accuracy by precisely adjusting the solid-liquid interface wetting angle.

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Applied Optics