Tunable metalensing based on plasmonic resonators embedded on thermosresponsive hydrogel

材料科学 等离子体子 谐振器 焦距 镜头(地质) 光电子学 光学 光子学 物理
作者
Naeem Ullah,Ata Ur Rahman Khalid,Shehzad Ahmed,Shahid Iqbal,Muhammad Ismail Khan,Majeed Ur Rehman,Andleeb Mehmood,Bin Hu,Xiaoqing Tian
出处
期刊:Optics Express [Optica Publishing Group]
卷期号:31 (8): 12789-12789 被引量:11
标识
DOI:10.1364/oe.484137
摘要

Metalenses of adjustable power and ultrathin flat zoom lens system have emerged as a promising and key photonic device for integrated optics and advanced reconfigurable optical systems. Nevertheless, realizing an active metasurface retaining lensing functionality in the visible frequency regime has not been fully explored to design reconfigurable optical devices. Here, we present a focal tunable metalens and intensity tunable metalens in the visible frequency regime through the control of the hydrophilic and hydrophobic behavior of freestanding thermoresponsive hydrogel. The metasurface is comprised of plasmonic resonators embedded on the top of hydrogel which serves as dynamically reconfigurable metalens. It is shown that the focal length can be continuously tuned by adjusting the phase transition of hydrogel, the results reveal that the device is diffraction limited in different states of hydrogel. In addition, the versatility of hydrogel-based metasurfaces is further explored to design intensity tunable metalens, that can dynamically tailor the transmission intensity and confined it into the same focal spot under different states, i.e., swollen and collapsed. It is anticipated that the non-toxicity and biocompatibility make the hydrogel-based active metasurfaces suitable for active plasmonic devices with ubiquitous roles in biomedical imaging, sensing, and encryption systems.
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