Patent Number: 052166996
Section: claims

1. An X-ray microscope in which a specimen is irradiated with X rays emitted from an X-ray radiation source and the X rays transmitted through the specimen are received by an X-ray detector to secure an image of an object, wherein an X-ray filter for transmitting radiation having a wavelength between 43.7 and 65 .ANG. and a light source for emitting ultraviolet light having a wavelength of at least 100 nm are disposed in an optical path from said X-ray radiation source to said X-ray detector,  the ultraviolet light from said light source being reflected from said X-ray filter to irradiate said specimen.  an X-ray radiation source in which a target is irradiated with a beam from a laser beam source to produce a plasma, for emitting X rays having wavelengths of 43.7 to 65 .ANG. from the plasma;  a condenser for irradiating a specimen with the X rays;  an objective optical system for focusing the X rays transmitted through said specimen;  an X-ray detector for detecting the X rays passing through said objective optical system;  a filter disposed obliquely between said X-ray radiation source and said X-ray detector, for transmitting radiation having wavelengths of 43.7 to 65 .ANG. and reflecting radiation having a wavelength of at least 100 nm;  beam splitting means for splitting a part of the beam from said laser beam source; and  a frequency converting optical element for receiving a laser beam split by said beam splitting means to emit ultraviolet light having a wavelength of at least 100 nm,  said ultraviolet light being reflected from said filter to irradiate said specimen.  a biological specimen incorporated in a specimen vessel;  a light source for emitting ultraviolet light liberating outermost cell electrons of a carbon atom contained in said specimen from the carbon atom;  a radiation source for emitting X rays containing wavelengths of 65 to 43.7 .ANG.;  an objective lens for converging the X rays transmitted through said specimen; and  a detector for sensing the X rays converged by said objective lens,  said specimen being irradiated with the ultraviolet light and the X rays simultaneously to secure an image of said specimen,  wherein an entrance window of said specimen vessel on which the ultraviolet light and the X rays are incident and an exit window of said specimen vessel from which the X rays emerge are formed of thin diamond films. 2. An X-ray microscope according to claim 1, comprising means for changing an intensity of the ultraviolet light with which said specimen is irradiated. 3. An X-ray microscope according to claim 2, further comprising means for forming a differential signal by extracting a difference between a first image signal derived from said X-ray detector by irradiating said specimen with the ultraviolet light of the wavelength of at least 100 nm and the X rays of the wavelengths of 43.7 to 65 .ANG. and a second image signal derived from said X-ray detector by irradiating said specimen with only the X rays of the wavelengths of 43.7 to 65 .ANG.. 4. An X-ray microscope according to claim 1 or 2, further comprising a condenser disposed between said X-ray radiation source and said specimen, for condensing the X rays onto said specimen, and an objective optical system disposed between said specimen and said X-ray detector, for focusing the X ray from said specimen. 5. An X-ray microscope according to claim 4, wherein said objective optical system is a reflecting optical system comprising reflecting mirrors, each coated with a multilayer film formed of materials containing carbon. 6. An X-ray microscope according to claim 5, wherein said objective optical system is a Schwarzschild optical system. 7. An X-ray image forming apparatus comprising: 8. An X-ray image forming apparatus according to claim 7, wherein said frequency converting optical element has a property of changing an intensity of the ultraviolet light emerging according to a change in a polarizing state of the laser beam of incidence, and a polarizing element is disposed between said laser beam source and said frequency converting optical element. 9. An X-ray image forming apparatus according to claim 8, further comprising means for forming a differential signal by extracting a difference between a first image signal derived from said X-ray detector by irradiating said specimen with the ultraviolet light of the wavelength of at least 100 nm and the X rays of the wavelengths of 43.7 to 65 .ANG. and a second image signal derived from said X-ray detector by irradiating said specimen with only the X rays of the wavelengths of 43.7 to 65 .ANG.. 10. A specimen vessel for X-ray microscopes having at least an entrance window and an exit window, constructed so that a biological specimen to be observed is incorporated therein, wherein said entrance window and said exit window are formed of thin diamond films. 11. An X-ray microscope comprising: