基于红外脉冲激光加热的混合纳米压印光刻技术

Y. Lee, Chun-Hung Chen, Chuan-Pu Liu
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引用次数: 1

摘要

本文提出了一种新的纳米压印方法,它结合了传统纳米压印(NIL)的重要特点和新发展的激光辅助直接压印(LADI)方法。它利用波长1064nm的Nd-YAG脉冲激光器,可以很容易地穿透并加热压在衬底上的抗蚀剂层上的硅模。硅模内快速上升的温度可以瞬间熔化抗蚀剂层,从而使模具压印到抗蚀剂层中。图案转换后,可将标准的纳米压印工艺应用于基片上进行纳米加工。与现有的纳米压印方法相比,该方法具有许多优点,主要是由于高强度红外激光脉冲对硅模的快速加热,因此不存在热漂移问题。本文将介绍这种新型红外激光辅助印迹方法的理论建模和实验结果
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A Hybrid Nano-Imprinting Lithography Based on Infrared Pulsed Laser Heating
In this paper we present a novel method of nano-imprinting which adopts important features of conventional nano-imprinting lithography (NIL) and the newly developed laser-assisted direct imprinting (LADI) method. It utilizes an Nd-YAG pulsed laser of wavelength 1064 nm which can easily penetrate and also heat up a silicon mold which is pressed against a resist layer deposited on a substrate. The fast rising temperature in the silicon mold can momentarily melt the resist layer so that the mold is imprinting into the resist layer. After the pattern is transformed, standard nano-imprinting lithography processes can be applied to the substrate for nano-fabrication. This new method has several advantages over existing nano-imprinting methods mostly due to the fast heating-up of silicon mold by high intensity IR laser pulse and therefore has no thermal drifting problem. Both the theoretical modeling and experimental results of this novel IR-laser assisted imprinting method will be presented
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