Model-Based Proximity Effect Correction for Electron-Beam-Direct-Write Lithography

机译：电子束直接写入光刻的基于模型的邻近效应校正

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A model-based proximity effect correction methodology is proposed and tested for electron-beam-direct-write lithography. It iteratively modulates layout geometry by feedback compensation until the correction error converges. The energy intensity distribution is efficiently calculated by fast convolving the modulated layout with a point-spread function which models electron beam shape and proximity effects primarily due to electron scattering in resist. The effectiveness of this methodology is measured by iteration numbers required for meeting the patterning fidelity specifications. It is examined versus process parameters including acceleration voltage and resist thickness with several regular mask geometries and practical design layouts.

机译：提出了一种基于模型的邻近效应校正方法，并对电子束直接写入光刻技术进行了测试。它通过反馈补偿迭代地调整布局几何形状，直到校正误差收敛为止。通过使用点扩展函数快速卷积调制布局，可以有效地计算能量强度分布，该点扩展函数主要是由于抗蚀剂中的电子散射而对电子束形状和邻近效应进行建模。该方法的有效性通过满足构图保真度规范所需的迭代次数来衡量。通过几个常规的掩模几何形状和实用的设计布局，对包括加速电压和抗蚀剂厚度在内的工艺参数进行了检查。

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来源
《Alternative lithographic technologies II》|2010年|P.76371V.1-76371V.8|共8页
会议地点 San Jose CA(US)
作者
Chun-Hung Liu; rnPei-Lin Tien; rnPhilip C. W. Ng; rnYu-Tian Shen; rnKuen-Yu Tsai;
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作者单位

Department of Electrical Engineering, National Taiwan University, Taipei, Taiwan;

rnDepartment of Electrical Engineering, National Taiwan University, Taipei, Taiwan;

rnDepartment of Electrical Engineering, National Taiwan University, Taipei, Taiwan;

rnDepartment of Electrical Engineering, National Taiwan University, Taipei, Taiwan;

rnDepartment of Electrical Engineering, National Taiwan University, Taipei, Taiwan;

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原文格式 PDF
正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
electron beam lithography; proximity effect correction;

机译：电子束光刻；邻近效应校正;

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专利

1. Impacts of point spread function accuracy on patterning prediction and proximity effect correction in low-voltage electron-beam-direct-write lithography [J] . Chun-Hung Liu, Philip C. W. Ng, Yu-Tian Shen, Journal of Vacuum Science & Technology. B . 2013,第2期

机译：点扩展函数精度对低压电子束直接写入光刻中图形预测和邻近效应校正的影响
2. Restricted Optical Proximity Effect Correction Pattern Generation Based on Optical Proximity Effect Correction-Design for Manufacturability Rule in Model-Based Optical Proximity Effect Correction [J] . Katsuhiko Harazaki, Tasuku Yoshioka, Kiyoshige Ohmori, Japanese Journal of Applied Physics. Part 1, Regular Papers, Brief Communications & Review Papers . 2007,第9BPt1期

机译：基于光学邻近效应校正的受限光学邻近效应校正模式生成-基于模型的光学邻近效应校正中的可制造性规则设计
3. A sparse matrix model-based optical proximity correction algorithm with model-based mapping between segments and control sites [J] . Bin LIN, Xiao-lang YAN, Zheng SHI, 浙江大学学报（英文版）（C辑：计算机与电子） . 2011,第005期

机译：一种基于稀疏矩阵模型的光学邻近校正算法，在分段和控制点之间具有基于模型的映射
4. Model-Based Proximity Effect Correction for Electron-Beam-Direct-Write Lithography [C] . Chun-Hung Liu, Pei-Lin Tien, Philip C. W. Ng, Alternative Lithographic Technologies conference . 2010

机译：基于模型的电子束直接写入光刻校正校正
5. Compensation of extreme ultraviolet lithography image field edge effects through optical proximity correction. [D] . Maloney, Chris. 2014

机译：通过光学邻近校正来补偿极紫外光刻图像场边缘效应。
6. Thermal nanoimprint lithography for drift correction in super-resolution fluorescence microscopy [O] . Yeoan Youn, Yuji Ishitsuka, Chaoyi Jin, -1

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7. Inverse Lithography as a DFM Tool: Accelerating Design Rule Development with Model-Based Assist Feature Placement, Fast Optical Proximity Correction and Lithographic Hotspot Detection [O] . Steve Prinsa, James Blatchforda, Simon Changa, 2014

机译：反向光刻作为DFm工具：利用基于模型的辅助特征放置，快速光学邻近校正和光刻热点检测加速设计规则开发
8. A Proximity effect Correction Program for Electron Beam Lithography [R] . Berkowitz, H. L., Lux, R. A. 1982

机译：电子束光刻的邻近效应校正程序

Model-Based Proximity Effect Correction for Electron-Beam-Direct-Write Lithography

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