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Proceedings Paper

Analysis, simulation, and experimental studies of YAG and CO2 laser-produced plasma for EUV lithography sources
Author(s): A. Hassanein; V. Sizyuk; S. S. Harilal; T. Sizyuk
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Paper Abstract

Efficient laser systems are essential for the realization of high volume manufacturing in extreme ultraviolet lithography (EUVL). Solid-state Nd:YAG lasers usually have lower efficiency and source suppliers are alternatively investigating the use of high power CO2 laser systems. However, CO2 laser-produced plasmas (LPP) have specific characteristics and features that should be taken into account when considering them as the light source for EUVL. The analysis of recent experimental and theoretical work showed significant differences in the properties of plasma plumes produced by CO2 and the Nd:YAG lasers including EUV radiation emission, source formation, debris generation, and conversion efficiency. The much higher reflectivity of CO2 laser from liquid, vapor, and plasma of a tin target results in the production of optically thinner plumes with higher velocity and in a better formation of plasma properties (temperature and density values) towards more efficient EUV source. However, the spikes in the temporal profiles of current CO2 laser will additionally affect the properties of the produced plasma. We have developed unique combination of state-of-the-art experimental facilities (CMUXE Laboratory) and advanced computer simulation (HEIGHTS) package for studying and optimizing various lasers, discharge produced plasmas (DPP), and target parameters as well as the optical collection system regarding EUV lithography. In this work, detailed characteristics of plasmas produced by CO2 and Nd:YAG lasers were analyzed and compared both experimentally and theoretically for optimizing EUV from LPP sources. The details of lower overheating of plasma produced by CO2 laser are given with time and explain how to utilize the high reflectivity of such lasers in plasmas produced in different target geometries to significantly enhance the conversion efficiency of EUV radiation.

Paper Details

Date Published: 19 March 2010
PDF: 7 pages
Proc. SPIE 7636, Extreme Ultraviolet (EUV) Lithography, 76360A (19 March 2010); doi: 10.1117/12.848222
Show Author Affiliations
A. Hassanein, Purdue Univ. (United States)
V. Sizyuk, Purdue Univ. (United States)
S. S. Harilal, Purdue Univ. (United States)
T. Sizyuk, Purdue Univ. (United States)


Published in SPIE Proceedings Vol. 7636:
Extreme Ultraviolet (EUV) Lithography
Bruno M. La Fontaine, Editor(s)

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