DocumentCode
1063525
Title
Influence of the Electrode Material and Structure on the Performance of a XeCl
Laser
Author
Strowitzki, Claus F. ; Franz, Gerhard
Author_Institution
Laser Discharge Unit Munich, Coherent Munchen Zweigniederlassung der Coherent GmbH, Munich
Volume
36
Issue
1
fYear
2008
Firstpage
181
Lastpage
184
Abstract
The XeCl* excimer laser is a well-established system tool for many applications. During operation, highly volatile chlorides are often formed, which leads to enhanced electrode erosion and reduced lifetime. Therefore, special attention should be paid to the rate of erosion of all electrode materials that are used in chlorine based excimer lasers. In our work, we came to the result that the chemical behavior of the electrode material is much more important than the classical electrode parameters erosion rate and work function. To separate the erosion rate into a chemical and physical part, we used a nickel electrode as anode (almost no wear) and cathode (low wear compared to tungsten). We concluded that nickel as an electrode material is still the best material in our laser design.
Keywords
anodes; cathodes; excimer lasers; nickel; xenon compounds; XeCl; XeCl laser performance; anode; cathode; chemical behavior; chlorine compounds; electrode erosion; electrode material; excimer laser; laser design; nickel electrode; vapor pressure; volatile chlorides; Anodes; Cathodes; Chemical lasers; Electrodes; Laser theory; Lead compounds; Nickel; Optical design; Optical materials; Tungsten; Chlorine compounds; XeCl$^{ast}$ ; electrode materials; vapor pressure;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2007.913924
Filename
4448407
Link To Document