Abstract: An optical material for lithographic applications is selected from crystal materials by a testing method. The crystal materials are preferably quartz and/or alkali or alkaline earth halides, especially fluorides, or mixed crystals. The testing method includes three tests to measure irreversible radiation damage: 1) the optical material is irradiated with ultraviolet radiation at 193 nm and the non-intrinsic fluorescence intensity at 740 nm is measured; 2) the optical material is irradiated with high energy density laser light and a change in respective absorptions before and after irradiation at 385 nm is measured; and 3) the optical material is irradiated with an X-ray or radioactive source to form all possible color centers and a difference of respective surface integrals of corresponding absorption spectra in ultraviolet spectral and/or visible spectral regions is measured before and after irradiation.

Abstract: An optical material for lithographic applications is selected from crystal materials by a testing method. The crystal materials are preferably quartz and/or alkali or alkaline earth halides, especially fluorides, or mixed crystals. The testing method includes three tests to measure irreversible radiation damage: 1) the optical material is irradiated with ultraviolet radiation at 193 nm and the non-intrinsic fluorescence intensity at 740 nm is measured; 2) the optical material is irradiated with high energy density laser light and a change in respective absorptions before and after irradiation at 385 nm is measured; and 3) the optical material is irradiated with an X-ray or radioactive source to form all possible color centers and a difference of respective surface integrals of corresponding absorption spectra in ultraviolet spectral and/or visible spectral regions is measured before and after irradiation.

Abstract: The method determines the extent of irreversible radiation damage of an optical material. The method includes the following three tests to determine the extent of irreversible radiation damage: 1) the optical material is irradiated with ultraviolet radiation at a wavelength of 193 nm and the non-intrinsic fluorescence intensity at a wavelength of 740 nm is measured; 2) the optical material is irradiated with high energy laser light and a change in respective absorptions at a wavelength of 385 nm is determined before and after irradiation; and 3) the optical material is irradiated with an energetic radiation source to form all possible color centers and a difference of respective surface integrals of corresponding absorption spectra in ultraviolet spectral and/or visible spectral regions is measured before and after irradiation.

Abstract: The method determines the extent of irreversible radiation damage of an optical material. The method includes the following three tests to determine the extent of irreversible radiation damage: 1) the optical material is irradiated with ultraviolet radiation at a wavelength of 193 nm and the non-intrinsic fluorescence intensity at a wavelength of 740 nm is measured; 2) the optical material is irradiated with high energy laser light and a change in respective absorptions at a wavelength of 385 nm is determined before and after irradiation; and 3) the optical material is irradiated with an energetic radiation source to form all possible color centers and a difference of respective surface integrals of corresponding absorption spectra in ultraviolet spectral and/or visible spectral regions is measured before and after irradiation.