微纳3D打印衍射光学应用|Nanoscribe

多级衍射光学元件

双光子灰度光刻技术可以一步实现真正具有出色形状精度的多级衍射光学元件（DOE），并且满足DOE纳米结构表面的横向和纵向分辨率达到亚微米量级。

出色形状精度的DOE纳米结构

由于需要多次光刻，刻蚀和对准工艺，衍射光学元件（DOE）的传统制造耗时长且成本高。而利用增材制造即可简单一步实现多级衍射光学元件，可以直接作为原型使用，也可以作为批量生产母版工具。

Nanoscribe的Quantum X打印系统非常适合DOE的制作。该系统的无掩模光刻解决方案可以满足衍射光学元件所需的横向和纵向高分辨率要求。基于双光子灰度光刻技术 (2GL ®)的Quantum X打印系统可以实现一气呵成的制作，即一步打印多级衍射光学元件，并以经济高效的方法将多达4,096层的设计加工成离散的或准连续的拓扑。

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多达4096级衍射图形

Multi-level DOE structure with discrete levels. — 具有离散级别的多层DOE结构。

Confocal microscope image of a quasi-continuous DOE structure. — 准连续DOE结构的共聚焦显微镜图像。

Schema of the off-axis holographic projection with blazed top facet DOE. — 带有闪耀顶面DOE的离轴全息投影示意图。图片来自于Hao Wang, Singapore University of Technology and Design

衍射微光学领域应用

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