Fricke-Begemann T, Ihlemann J
Opt Express. 2018 Sep 3;26(18):23751-23759. doi: 10.1364/OE.26.023751.
Fresnel lenses are fabricated directly upon the end face of gradient index (GRIN) lenses by F-laser machining at 157 nm wavelength. The employed laser processing technique combines a mask projection configuration at 25-x demagnification with a rotation of the structured lens. The ablation characteristics of the GRIN materials require very high pulse fluences with typical values above 7 J/cm. Topography measurements on the Fresnel lenses reveal a good contour accuracy with residual deviations from the design profile well below 100 nm. Such hybrid optical elements, combining GRIN lenses with diffractive lenses in one element, can serve as the basis for high-performance micro-optical imaging systems with diameters up to 2 mm. Examples of possible applications include imaging sensors like proximity sensors or color-corrected microscope objectives with high numerical aperture for endoscopy applications.
菲涅耳透镜是通过波长为157nm的F激光加工直接在梯度折射率(GRIN)透镜的端面上制造的。所采用的激光加工技术将25倍缩小倍率的掩模投影配置与结构化透镜的旋转相结合。GRIN材料的烧蚀特性需要非常高的脉冲能量密度,典型值高于7J/cm²。对菲涅耳透镜的形貌测量显示出良好的轮廓精度,与设计轮廓的残余偏差远低于100nm。这种将GRIN透镜和衍射透镜组合在一个元件中的混合光学元件,可以作为直径达2mm的高性能微光学成像系统的基础。可能的应用示例包括成像传感器,如接近传感器或用于内窥镜应用的具有高数值孔径的色彩校正显微镜物镜。
