用元曲面引导突然自动聚焦光束 [特邀]

Rong Lin, Jin Yao, Jingcheng Zhang, Xiaoyu Che, Borui Leng, Zhihui Wang, Muku Chen, Din Ping Tsai
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引用次数: 0

摘要

猝发自动聚焦(AAF)光束以其非衍射特性、扩展焦深和自愈能力而著称,在生物医学领域比传统的高斯光束更具优势。与之前只能产生被动 AAF 光束的方法相比,我们引入了元曲面,以实现入射波长为 532 nm 的动态转向 AAF 光束。通过将两个元表面向相反方向旋转一个角度θ,就能改变产生 AAF 光束的位置和自动聚焦方向。我们的理论分析和全波仿真结果证实,AAF 光束的偏转角可以微调至 11°,而不会明显影响焦距或聚焦效率。这种功能可在生物医学应用中实现精确操作,包括增强激光手术、光学镊子和优化光动力疗法。
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Steering abrupt autofocusing beams with metasurfaces [Invited]
Abrupt autofocusing (AAF) beams, known for their non-diffractive properties, extended focal depth, and self-healing capabilities, are advantageous over conventional Gaussian beams in the biomedical field. Compared to the previous method that can only generate a passive AAF beam, we introduce metasurfaces to achieve a dynamically steered AAF beam at the incident wavelength of 532 nm. By rotating the two metasurfaces in opposite directions of an angle θ, both the generated position of the AAF beam and the autofocusing direction can be altered. Our theoretical analysis and full-wave simulation results confirmed that the deflection angle of the AAF beam can be finely adjusted from to 11° without significantly affecting the focal length or focusing efficiency. This capability allows for precision operation in biomedical applications, including enhanced laser surgery, optical tweezing, and optimized photodynamic therapy.
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