Replication and subdivision of chromium nano-grating in atom lithography

SPIE Optical Systems Design Pub Date : 2015-09-24 DOI:10.1117/12.2191128
Xiao Deng, Jie Chen, Jie Liu, Yan Ma, Xinbin Cheng, Tongbao Li
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引用次数: 1

Abstract

Atom lithography is a novel technique for nanofabrication which can be used to grow periodic arrays of highly uniform nanometer-scale structures. The pitch standard of Cr nano-grating is 212.8±0.1 nm, which coincides with λ/2 of the standing wave, in correspondence with the 52Cr atomic resonance transition: 7S3 → 7P40, λ= 425.55 nm. With the utilization of the material removal ability by AFM scratching, the Cr nanostructures have been transferred to an InP substrate for replication and subdivision. The uncertainty analysed based on gravity centre (GC) method is better than 0.5% for both replicated and subdivided nano-gratings. AFM lithography method expands the application of atom lithography in metrology to a smaller scale with high precision.
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原子光刻中铬纳米光栅的复制与细分
原子光刻技术是一种新的纳米制造技术,可用于生长高度均匀的纳米尺度结构的周期阵列。Cr纳米光栅的基音标准为212.8±0.1 nm,与驻波λ/2相吻合,对应52Cr原子共振跃迁:7S3→7P40, λ= 425.55 nm。利用AFM刮擦的材料去除能力,Cr纳米结构被转移到InP衬底上进行复制和细分。用质心法分析的不确定度在复制和细分纳米光栅中均优于0.5%。原子力显微镜光刻技术将原子光刻技术在计量领域的应用扩展到更小的范围和更高的精度。
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SPIE Optical Systems Design
SPIE Optical Systems Design
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