制作
干涉光刻
材料科学
平版印刷术
光学
数字微镜装置
光子晶体
干扰(通信)
栅栏
光电子学
电子束光刻
X射线光刻
光子学
分束器
衍射光栅
投影(关系代数)
无光罩微影
光刻
抵抗
微电子机械系统
纳米光刻
数字光处理
折射率
梁(结构)
全息术
可扩展性
液晶显示器
纳米压印光刻
光学滤波器
下一代光刻
作者
Ziyi Zhou,Dong Xian-Zi,xuan-ming duan,Meiling Zheng
出处
期刊:Optics Letters
[Optica Publishing Group]
日期:2025-12-24
卷期号:51 (2): 508-508
被引量:1
摘要
We present a hybrid lithography approach integrating digital micromirror device (DMD) projection with multi-beam interference enabled by a Dammann grating. This approach allows for the rapid fabrication of two-dimensional complex periodic structures with low exposure dose and simplified image design. Simulations and experimental results confirm the tunability of patterned structures through three key parameters: DMD image modulation, grating angle adjustment, and exposure dose control. Periodic dot arrays, gradient-duty-ratio superlattices, and photonic crystal waveguides, such as beam splitters, right-angle bends, and resonant rings, were successfully fabricated. Notably, compared to conventional direct DMD lithography, our approach achieves a 25-fold improvement in energy efficiency. The versatility and scalability of DMD-Dammann interference lithography demonstrate its potential for high-throughput fabrication of photonic crystal devices and optical microarrays.
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