光刻是低k双光化的关键一步:从248纳米到193纳米

Proceedings of the IEEE 2000 International Interconnect Technology Conference (Cat. No.00EX407) Pub Date : 2000-06-05 DOI:10.1109/IITC.2000.854290

K. Ronse, M. Maenhoudt, I. Pollentier, V. Wiaux, H. Struyf, M. Lepage, S. Vanhaelemeersch

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引用次数: 0

摘要

光学光刻技术在集成电路的批量生产中不断被推向其极限。随着低k介电体在后端工艺中的应用，介电层的光学特性发生了巨大的变化。此外，从传统的铝铜干蚀刻方案到几种潜在的大马士革集成方案的转变对光刻工艺有重大影响，应予以考虑。通常认为前端线的发展是光刻的动力。然而，后端光刻技术最近变得具有挑战性。在本文中，将概述0.13 um技术节点的后端大马士革光刻工艺的各种问题。将概述用于248纳米和193纳米光刻的后端光刻解决方案的IMEC策略。

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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Lithography as a critical step for low-k dual damascene: from 248 nm to 193 nm

Optical lithography is continuously pushed to its limits for volume manufacturing of integrated circuits. With the implementation of low-k dielectrics in the back-end-of-line processes, the optical properties of the dielectric stack have drastically changed. Also the transition from the conventional AlCu dry-etch scheme to several potential damascene integration schemes has significant impact on the lithography process and should be taken into account. Usually front-end-of-line development is considered as the driving force for lithography. However back-end lithography has become as challenging recently. In this paper, the various issues for back-end damascene lithography processes for the 0.13 um technology node will be outlined. The IMEC strategy for back-end-of-line lithography solutions will be outlined, for both 248 nm and 193 nm lithography.

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Proceedings of the IEEE 2000 International Interconnect Technology Conference (Cat. No.00EX407)

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