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- Title
Evaluation of H<sub>2</sub> Plasma-Induced Damage in Materials for EUV Lithography.
- Authors
Eun-Seok Choe; Seungwook Choi; Ansoon Kim; Kwan-Yong Kim; Hee-Jung Yeom; Min Young Yoon; Seongwan Hong; Dong-Wook Kim; Jung-Hyung Kim; Hyo-Chang Lee
- Abstract
Ultrafine semiconductor fabrication by lithography has undergone a significant transition from deep ultraviolet (DUV) to extreme ultraviolet (EUV) processes, which presents new challenges. Specifically, the damage caused to components utilized in an EUV system, such as multilayer mirrors, reticles, and pellicles within lithography equipment, owing to EUV-induced H2 plasma, is a critical issue that directly affects the process yield and equipment lifespan. To address these issues, it is crucial to establish an environment similar to that of EUV-induced plasma and develop a method to evaluate the resulting damage. Accordingly, an evaluation method is developed for assessing the material damage caused by hydrogen radicals and ions in inductively coupled H2 plasma. In these systems, the electron density ranged from 5 × 108 to 3.5 × 1010 cm−3, the electron temperature ranged from 1 to 4 eV, and the ion energy ranged from several to tens of eV; these conditions closely align with the environment of an EUV-induced H2 plasma. The damage to Mo2C, a potential EUV pellicle material, is quantitatively analyzed by measuring the fraction of the pore area and examining the chemical characteristics after exposing the samples to various plasma conditions, including electron density, gas pressure, and exposure time.
- Subjects
EXTREME ultraviolet lithography; SEMICONDUCTOR manufacturing; RADICAL ions; ELECTRON density; ION energy; ELECTRON temperature; HYDROGEN ions
- Publication
Advanced Materials Interfaces, 2024, Vol 11, Issue 7, p1
- ISSN
2196-7350
- Publication type
Article
- DOI
10.1002/admi.202300867