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Reducing Line Edge Roughness in Si and SiN Through Plasma Etch Chemistry Optimization for Photonic Waveguide Applications

机译：通过等离子刻蚀化学优化在光子波导应用中降低Si和SiN中的线边缘粗糙度

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The LER and LWR of subtractively patterned Si and SiN waveguides was calculated after each step in the process. It was found for Si waveguides that adjusting the ratio of CF_4:CHF_3 during the hard mask open step produced reductions in LER of 26 and 43% from the initial lithography for isolated waveguides patterned with partial and full etches, respectively. However for final LER values of 3.0 and 2.5 nm on fully etched Si waveguides, the corresponding optical loss measurements were indistinguishable. For SiN waveguides, introduction of C4H9F to the conventional CF4/CHF3 measurement was able to reduce the mask height budget by a factor of 5, while reducing LER from the initial lithography by 26%.

机译：减法图案化的Si和SiN波导的LER和LWR在该过程的每个步骤之后都进行了计算。对于Si波导，发现在硬掩模打开步骤期间调节CF_4∶CHF_3的比率使得与分别具有部分和全部蚀刻图案的隔离波导的初始光刻相比，LER减小了26％和43％。但是，对于在完全蚀刻的Si波导上的最终LER值为3.0和2.5 nm，相应的光损耗测量值是无法区分的。对于SiN波导，在常规CF4 / CHF3测量中引入C4H9F能够将掩模高度预算降低5倍，而与初始光刻相比的LER降低26％。

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来源
《Advanced etch technology for nanopatterning VI》|2017年|101490F.1-101490F.10|共10页
会议地点 San Jose(US)
作者
Nathan Marchack; Marwan Khater; Jason Orcutt; Josephine Chang; Steven Holmes; Tymon Barwicz; Swetha Kamlapurkar; William Green; Sebastian Engelmann;
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作者单位

IBM TJ Watson Research Center, Yorktown Heights, NY;

IBM TJ Watson Research Center, Yorktown Heights, NY;

IBM TJ Watson Research Center, Yorktown Heights, NY;

Northrop Grumman Corporation, Baltimore, MD;

IBM TJ Watson Research Center, Yorktown Heights, NY;

IBM TJ Watson Research Center, Yorktown Heights, NY;

IBM TJ Watson Research Center, Yorktown Heights, NY;

IBM TJ Watson Research Center, Yorktown Heights, NY;

IBM TJ Watson Research Center, Yorktown Heights, NY;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Plasma etching; silicon; nitride; photonics; waveguide; sensors; LER; LWR;

机译：等离子蚀刻；硅;氮化物光子学波导;传感器LER;轻水堆;

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专利

1. Characterization of sidewall roughness of InP/InGaAsP etched using inductively coupled plasma for low loss optical waveguide applications [J] . J. W. Bae, W. Zhao, J. H. Jang, Journal of Vacuum Science & Technology. B, Microelectronics and Nanometer Structure . 2003,第6期

机译：低损耗光波导应用电感耦合等离子体刻蚀的InP / InGaAsP侧壁粗糙度的表征
2. Infinite etch selectivity and line edge roughness variation during etching of silicon oxynitride with an extreme ultraviolet resist pattern in dual-frequency CH_2F_2/H_2/Ar capacitively coupled plasmas [J] . B. S. Kwon, J. S. Kim, N.-E. Lee, Journal of Vacuum Science & Technology . 2010,第1期

机译：在双频CH_2F_2 / H_2 / Ar电容耦合等离子体中蚀刻具有极端紫外线抗蚀剂图案的氮氧化硅期间的无限蚀刻选择性和线边缘粗糙度变化
3. Infinite etch selectivity and line edge roughness variation during etching of silicon oxynitride with an extreme ultraviolet resist pattern in dual-frequency CH2F2/H2/Ar capacitively coupled plasmas [J] . Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures . 2010,第1期

机译：在双频CH2F2 / H2 / Ar电容耦合等离子体中蚀刻具有极端紫外线抗蚀剂图案的氮氧化硅期间的无限蚀刻选择性和线边缘粗糙度变化
4. Reducing Line Edge Roughness in Si and SiN Through Plasma Etch Chemistry Optimization for Photonic Waveguide Applications [C] . Nathan Marchack, Marwan Khater, Jason Orcutt, Conference on advanced etch technology for nanopatterning VI . 2017

机译：通过对光子波导应用的等离子体蚀刻化学优化减少Si和SiN中的线边缘粗糙度
5. Characterization of shallow trench isolation etch line edge roughness. [D] . Hon, Becky M. 2003

机译：浅沟槽隔离蚀刻线边缘粗糙度的表征。
6. Design and Fabrication of a Visible-Light-Compatible Polymer-Based Photonic Crystal Resonator and Waveguide for Sensing Applications [O] . Jiayi Sun, Kenichi Maeno, Shoma Aki, 2018

机译：传感应用的可见光兼容基于聚合物的光子晶体谐振器和波导的设计和制造
7. Fabrication of Sub-micro Silicon Waveguide with Vertical Sidewall and Reduced Roughness for Low Loss Applications [O] . Wang Peng, Michael Aron, Kwok Chee Yee 2014

机译：具有垂直侧壁和降低粗糙度的亚微硅波导的制造，可实现低损耗应用

Reducing Line Edge Roughness in Si and SiN Through Plasma Etch Chemistry Optimization for Photonic Waveguide Applications

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