一维原子光刻中不完美铬源的纳米计量分析

2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2012-08-01 DOI:10.1109/3M-NANO.2012.6473006

Pingping Zhang, Yan Ma, Tongbao Li

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引用次数: 1

摘要

利用激光聚焦原子沉积技术，可以获得半波长间隔的周期性纳米结构，用于纳米计量学。给出了驻波光掩模的实验结果，其周期为213±0.1nm，高度为4nm，特征宽度为64±6nm。为了进一步减小特征宽度，增强沉积线的峰谷对比，采用优化粒子光学模型，随机选择每条轨迹的初始条件，数值模拟了不完全铬源对沉积线的影响。模拟结果表明，同位素有助于背景的积累，进一步拓宽了特征宽度。在薄透镜区，预测的线宽与烘箱温度密切相关。当横向角扩散的fwhm为0.16mrad、0.3mrad和0.5mrad时，得到的特征宽度分别为29nm、46nm和75nm。横向角扩展在扩展特征宽度方面起着核心作用，即使纵向速度扩展是热扩展。

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Analysis of imperfect chromium source in 1D atom lithography for nanometrology

Periodic nanostructures spaced by half of the wavelength applied for nanometrology can be obtained by laser-focused atomic deposition. Experimental result with standing wave light mask is presented, showing a periodicity of 213 ± 0.1nm, a height of 4nm and a feature width of 64 ± 6nm. To further minimize the feature width and enhance the peak-to-valley contrast of the deposited lines, the effects of imperfect chromium source are numerically simulated with Optimized Particle Optics model, where the initial condition of each trajectory is stochastically selected. Simulation results show that the isotope contributes to the accumulation of background and further broadens the feature width. The predicted line width is sensitive with the oven temperature in thin lens regime. The feature widths obtained are 29nm, 46nm and 75nm respectively when the FWHMs of the transverse angular spread are 0.16mrad, 0.3mrad and 0.5mrad. The transverse angular spread plays a central role in broadening the feature width, even when the longitudinal velocity spread is thermal.

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2012 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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