Experimental investigation of solid immersion lens lithography

机译：固体浸没透镜光刻实验研究

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There are several next generation technologies for high resolution lithography, such as ArF wet immersion, F2, EUV, etc. However, these technologies are very expensive because of projection lens and mask costs. Near-field optics using a solid immersion lens (SIL) can meet the requirement of high resolution in a cost-effective way. In this paper, a very compact and inexpensive high resolution system using a SIL is introduced and preliminary experimental results are presented using a 405nm laser diode system. The SIL is used with a modified conventional inverted microscope. The air gap between the SIL flat bottom surface and the wafer is kept less than 50nm. Optical reflected power from SIL bottom and wafer interface is used to control the gap. A high resolution experiment with 405nm wavelength is discussed.

机译：有几种用于高分辨率光刻的下一代技术，例如ArF湿法浸入，F2，EUV等。但是，由于投影透镜和掩模的成本，这些技术非常昂贵。使用固体浸没透镜（SIL）的近场光学器件可以经济高效地满足高分辨率的要求。本文介绍了一种使用SIL的非常紧凑且便宜的高分辨率系统，并使用405nm激光二极管系统提供了初步的实验结果。 SIL与改进的常规倒置显微镜一起使用。 SIL平底表面和晶片之间的气隙保持小于50nm。来自SIL底部和晶圆界面的光反射功率用于控制间隙。讨论了405nm波长的高分辨率实验。

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来源
《Optical Microlithography XVIII pt.1》|2005年|P.254-261|共8页
会议地点 San JoseCA(US)
作者
Tao Chen; Tom Milster; Dongseok Nam; Seung Hune Yang;
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作者单位

Optical Sciences -Center, University of Arizona, Tucson, 85721, USA;

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会议组织
原文格式 PDF
正文语种 eng
中图分类光刻、掩膜;
关键词
lithography; solid immersion lens; near-field optics;

机译：光刻;固体浸没透镜;近场光学;
入库时间 2022-08-26 14:27:49

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3. Improved Nanogap Servo System Using an Error-Based Disturbance Observer for High-Speed in Solid Immersion Lens-Based Plasmonic Lithography [J] . Geon Lim, Taeseob Kim, Won-Sup Lee, Japanese journal of applied physics . 2013,第9issue3期

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4. IMPROVED AIR GAP ERROR USING FREQUENCY ESTIMATION AND PEAK FILTER IN SOLID IMMERSION LENS-BASED PLASMONIC LITHOGRAPHY SYSTEM [C] . Guk-Jong Choi, Taeseob Kim, Yonug-Pil Park, ASME conference on information storage and processing systems . 2013

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5. Induced polarization imaging and other topics associated with the solid immersion lens. [D] . Chen, Tao. 2006

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7. Experimental and theoretical investigation on the misalignment tolerance of a micron-sized solid immersion lens [O] . A C Assafrao, M-S Kim, A J H Wachters, 2013

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8. Aberration Compensation in Aplanatic Solid Immersion Lens Microscopy (Open Access, Publisher's Version). [R] . Lu, Y., Bifano, T., Unlu, S., 2013

机译：aplanatic solid Inmersion Lension Lens microscopy中的像差补偿（开放存取，出版商版）。

Experimental investigation of solid immersion lens lithography

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