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Outlook for potential third-generation immersion fluids

Juan López-Gejo; Joy T. Kunjappu; J. Zhou; Bruce W. Smith; Paul Zimmerman; Will Conley; Nicholas J. Turro

Title:
Outlook for potential third-generation immersion fluids
Author(s):
López-Gejo, Juan
Kunjappu, Joy T.
Zhou, J.
Smith, Bruce W.
Zimmerman, Paul
Conley, Will
Turro, Nicholas J.
Date:
Type:
Articles
Department:
Chemistry
Volume:
6519
Permanent URL:
Book/Journal Title:
Proceedings of SPIE
Abstract:
In a search for alkane candidates for 193 nm immersion fluids, several alkanes and cycloalkanes were synthesized, purified and screened to ascertain their absorption at 193 nm, refractive index and temperature dispersion coefficient in the context of the actual application. In general, cycloalkanes, and more specifically polycycloalkanes, possess a higher refractive index than do linear alkanes. Decalin, cyclodecane, perhydrophenanthreme (PHP), perhydrofluorene (PHF) and perhydropyrene (PHPY) are examined as potential second and third generation immersion fluids. The use of perhydropyrene, which possesses a high refractive index of 1.7014 at 193 nm, may be limited as an immersion fluid because of high absorption at 193 nm. Mixtures of cycloalkanes can lead to a higher enhancement of the refractive index together with a decrease on the viscosity. Exhaustive purification of the fluids is a critical step in determining the real absorption of the different fluids at 193 nm. Two simple purification processes of these cycloalkanes were developed that led to low absorption fluids in the VUV region. The possibility of forming the oxygen complex in aerated fluids was reduced by purging samples with argon or nitrogen. This easy elimination of the oxygen complex shows the weak bonding nature of this complex.
Subject(s):
Chemistry
Publisher DOI:
10.1117/12.695536
Item views:
136
Metadata:
text | xml

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