Dual-pulse bispectral laser excitation and plasma initiation in an extreme-UV radiation source for nanolithography

R. P. Seĭsyan; V. G. Bespalov; A. P. Zhevlakov; E. A. Makarov; A. Yu. Rodionov

doi:10.1364/JOT.84.000753

Journal of Optical Technology
Vol. 84,
Issue 11,
pp. 753-760
(2017)
•https://doi.org/10.1364/JOT.84.000753

Dual-pulse bispectral laser excitation and plasma initiation in an extreme-UV radiation source for nanolithography

R. P. Seĭsyan, V. G. Bespalov, A. P. Zhevlakov, E. A. Makarov, and A. Yu. Rodionov

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R. P. Seĭsyan, V. G. Bespalov, A. P. Zhevlakov, E. A. Makarov, and A. Yu. Rodionov, "Dual-pulse bispectral laser excitation and plasma initiation in an extreme-UV radiation source for nanolithography," J. Opt. Technol. 84, 753-760 (2017)

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Abstract

This paper describes a laser system that provides dual-pulse bispectral excitation of a laser plasma in an extreme-UV source for nanolithography in this spectral region. The radiation converter is based on a low-power YAG:Nd laser and a powerful CO₂ laser. A saturating signal is injected into the power stage of a CO₂ amplifier by subnanosecond pulses at wavelength 9.2 μm from a stimulated-Raman-scattering amplifier pumped by the radiation of an optical parametric oscillator that uses the radiation of a YAG:Nd solid-state laser (the master oscillator). Mechanisms for high-efficiency conversion of laser radiation into the extreme-UV region (13.4 or 6.7 nm) were theoretically and experimentally studied. The laser system makes it possible to independently establish the optimum delay time between the pulses in order to increase the output of the extreme-UV radiation.

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Journal of Optical Technology