基于dmd无掩模光刻的折射/衍射混合投影透镜设计

3区物理与天体物理 Q1 Materials Science Progress in Optics Pub Date : 2021-06-08 DOI:10.3390/OPT2020011

Zhuohui Xu, Jinyun Zhou, Bo Wang, Ziming Meng

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引用次数: 0

摘要

投影透镜是基于dmd的无掩模光刻的核心部件，其成像质量直接影响曝光模式的转移。在传统投影透镜系统的基础上，设计了衍射光学元件(diffraction optical element, DOE)和非球面，对折射/衍射混合投影透镜系统进行了优化，以提高其成像质量。结果表明，在混合动力系统的前光圈前，DOE离前透镜组非常近时，获得的效果最好。与传统投影透镜系统相比，该混合投影透镜系统利用DOE降低了波像差，提高了调制传递函数(MTF)值，提高了成像质量。最后，设计出工作距离29.07 mm、像空间NA为0.45、总长度196.97 mm的混合投影透镜系统。结果表明，最大畸变和场曲率分别为1.36 × 10−5%和0.91 μm。

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Design of Refractive/Diffractive Hybrid Projection Lens for DMD-Based Maskless Lithography

The projection lens is the core component of DMD-based maskless lithography and its imaging quality directly affects the transferal of exposure pattern. Based on the traditional projection lens system, we have designed diffractive optical element (DOE) and aspheric surfaces to optimize the refractive/diffractive hybrid projection lens system to improve its imaging quality. We found that the best effect is obtained when DOE is very close to the front lens group before the diaphragm of the hybrid system. Compared with the traditional projection lens system, this hybrid projection lens system has lower wave aberration with the help of DOE, and higher image quality owing to the modulation transfer function (MTF) value being improved. Finally, a hybrid projection lens system with working distance of 29.07 mm, image Space NA of 0.45, and total length of 196.97 mm is designed. We found that the maximum distortion and field curvature are 1.36 × 10−5% and 0.91 μm, respectively.

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来源期刊

Progress in Optics 物理-光学

CiteScore

4.50

自引率

0.00%

发文量