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An extreme ultraviolet (EUV) light with a wavelength of 13.5 nm has been introduced to 7 nm FinFET technology. Optical elements such as Mo/Si multilayer mirror in lithography equipment are contaminated with hydrocarbon during the EUV light irradiation. The reflectance of the mirrors is decreased by carbon contamination. Therefore, the removal method of the carbon contamination is required for reduction of maintenance cost. The surface treatment using atomic hydrogen generated by a heated tungsten mesh, called as atomic hydrogen annealing (AHA), have been investigated for cleaning of the optical elements used in the synchrotron facility. The Au/Cr/Si substrate, Ni mirror and Ni diffraction grating with carbon contamination were cleaned and the reflectance of the mirrors was recovered by AHA. In addition, the AHA conditions could be optimized for cleaning of Mo/Si multilayer mirrors from the relationship between the treatment conditions and degradation. Furthermore, to clarify the reaction of atomic hydrogen with not only C-C bond but also C-O bond, the graphene oxide (GO) film was also treated by AHA. The C-O-C bonds in the GO films were preferentially reduced by AHA. It is found that the surface contamination consisting of hydrocarbon and/or C-O bond on the optical elements is removed without damage. The ability of atomic hydrogen to clean the optical elements had been confirmed. The findings are useful for the advanced lithography technology using EUV light.
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