Application of double exposure technique in plasmonic lithography

Advanced Lithography Pub Date : 2023-05-01 DOI:10.1117/12.2657812

Huwen Ding, Lihong Liu, Lisong Dong, Zhishu Chen, Yayi Wei

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Abstract

As the critical dimension (CD) of integrated circuits (ICs) becomes smaller and smaller, traditional optical lithography has a resolution limit due to the light diffraction effect, and surface plasmon lithography (SPL) beyond the diffraction limit developed in recent years is considered to be an alternative method to break through the diffraction limit. However, the fact that transverse magnetic (TM) waves are required to excite surface plasmon polaritons (SPP or SPPs) at the interface between a metal and a dielectric limits the application of surface plasmon lithography in imaging of the two-dimensional patterns in arbitrary shapes into photoresist. As an effective means of expanding existing lithography technology, double exposure (DE) is expected to be an effective means to solve this problem. Taking the advantage of imaging principle of DE, this paper proposes for the first time to apply DE to SPL to improve the imaging quality of SPL and theoretically analyzes the effect of DE on the improvement of SPL patterning in two dimensions. Simulation is performed in commercial software of Comsol Multiphysics 6.0. The simulation result verifies and proves that, in two-dimensional patterning, DE provides better imaging quality than single exposure.

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双曝光技术在等离子体光刻中的应用

随着集成电路(ic)的临界尺寸(CD)越来越小，传统的光学光刻由于光衍射效应存在分辨率极限，而近年来发展起来的超越衍射极限的表面等离子体光刻(SPL)被认为是突破衍射极限的一种替代方法。然而，在金属和介电介质之间的界面上激发表面等离子体激元(SPP或SPP)需要横向磁波，这一事实限制了表面等离子体光刻技术在将任意形状的二维图案成像成光刻胶中的应用。双曝光技术作为一种扩展现有光刻技术的有效手段，有望成为解决这一问题的有效手段。利用DE成像原理，首次提出将DE应用于SPL以提高SPL成像质量，并从二维角度理论上分析了DE对改善SPL成像效果的影响。在Comsol Multiphysics 6.0商用软件中进行仿真。仿真结果验证并证明，在二维成像中，DE比单曝光成像质量更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advanced Lithography

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