Patent Number: 051329948
Section: claims

1. An X-ray microscope comprising: an X-ray source;  a converging optical system collecting radiation emitted from the X-ray source;  a stage on which an object illuminated by X rays from the X-ray source is placed;  an objective optical system collecting radiation from the object;  a detector for receiving radiation through the objective optical system, said detector having sensitivity with respect to radiation of wavelengths ranging from an X-ray region to a vacuum ultraviolet ray region;  wherein a first filter means for eliminating long wavelength components from the radiation emitted from said X-ray source is disposed in an optical path extending between said X-ray source and said detector; and  a second filter means for eliminating short wavelength components from the radiation emitted from said X-ray source is disposed in said optical path. 2. The microscope according to claim 1, wherein said converging optical system is one of a Walter optical system, a Schwarzschild optical system and a zone plate. 3. The microscope according to claim 1, wherein said second filter means has a property of eliminating components of short wavelengths of less than 10 .ANG.. 4. The microscope according to claim 1, wherein said first filter means is an absorption filter absorbing a part of the radiation emitted from said X-ray source and said second filter means is a grazing incidence mirror reflecting a part of the radiation emitted from said X-ray source. 5. The microscope according to claim 4, wherein said source, said converging optical system and said detector are arranged in vacuum vessels so that a sample is irradiated with X rays through a first window provided in one of said vessels and said detector receives the X rays from the sample through a second window provided in the other, and at least one of said first and second windows constitutes said first filter means. 6. The microscope according to claim 5, wherein said sample is arranged in the atmosphere interposed between said windows and a layer of the atmosphere constitutes said first filter means. 7. The microscope according to any one of claims 1, 4, 5 or 6, wherein said first filter means has a property of eliminating components of long wavelengths of more than 100 .ANG.. 8. The microscope according to claim 6, wherein said first filter means is set to a cutoff wavelength of nearly 41 .ANG.. 9. The microscope according to claim 4, wherein said first filter means is set to a cutoff wavelength of nearly 55 .ANG.. 10. The microscope according to claim 4, wherein said second filter means is set to a cutoff wavelength of nearly 18 .ANG.. 11. The microscope according to claim 4, wherein said first filter means includes a layer made of one of Fe, Ni, Al and Be. 12. The microscope according to claim 4, wherein said second filter means comprises a reflecting mirror made of Pt. 13. The microscope according to claim 4, wherein said first filter means is set to a cutoff wavelength of nearly 41 .ANG.. 14. The microscope according to claim 6, wherein said first filter means is set to a cutoff wavelength of nearly 60 .ANG.. 15. The microscope according to claim 4, wherein said second filter means is set to a cutoff wavelength of nearly 15 .ANG..