Variable polarization processing based on femtosecond laser

Peichao Wu, Xiaowen Cao, Ling Zhao, Zhihao Chen, Hongbing Yuan, Mina Zhang, Wenwu Zhang
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Abstract

Micro/nanostructure with a subwavelength period can be induced on the material surface by femtosecond laser, named as Laser Induced Periodic Surface Structure (LIPSS). The uniform LIPSS structure act as a grating that diffracts light, which can display vivid structural colors when illuminating the surface with white light. Structural color with periodic LIPSS structure has strong angle dependence, depends on the direction of the LIPSS structure, which provided us with a new method to realize multi-direction micro/nanostructure processing. By changing the femtosecond laser polarization, we can get the periodic micro/nanostructures in different directions. The polarization controllable femtosecond fabrication can be used for multi-pattern fabrication. The structural color with polarization sensitivity, different patterns could be observed in different directions. Moreover, different from other coloration methods, structural color has inherent stability, which have potential application in the fields of anti-counterfeiting, information storage and dynamic display. In this letter, we introduce a half wave plate to adjust the polarization state of the laser, and realize femtosecond laser variable polarization processing multi-pattern on a stainless steel foil.
基于飞秒激光的变偏振处理
飞秒激光可以在材料表面诱导出具有亚波长周期的微纳结构,称为激光诱导周期表面结构(LIPSS)。均匀的LIPSS结构作为衍射光的光栅,当用白光照射表面时,可以显示出生动的结构颜色。具有周期性LIPSS结构的结构颜色具有很强的角度依赖性,依赖于LIPSS结构的方向,这为我们实现多方向微纳结构加工提供了一种新的方法。通过改变飞秒激光偏振,可以得到不同方向的周期性微纳结构。偏振可控飞秒加工可用于多模式加工。结构色具有极化敏感性,在不同方向上可观察到不同的图案。此外,与其他显色方法不同,结构色具有固有的稳定性,在防伪、信息存储和动态显示等领域具有潜在的应用前景。本文引入半波片来调节激光的偏振状态,在不锈钢箔上实现飞秒激光可变偏振加工多图案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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