Patent Number: 
Section: claims

1. A measuring and testing complex for carrying out researches in an X-ray range of radiation on multiple analytical stations simultaneously, each analytical station being configured for performing predetermined measurements or tests, the complex comprising:a single non-synchrotron radiation source for producing X-rays in a form of a single divergent beam,multiple radiation transporting channels for transporting radiation from the single non-synchrotron radiation source to the respective multiple analytical stations, andmultiple X-ray lenses corresponding to the multiple analytical stations, each of the X-ray lenses having a number of bent channels configured to provide multiple total external reflection of X-rays from walls of the bent channels,each of the X-ray lenses being configured to extract a part of the single divergent beam produced by the radiation source and transform the part the single divergent beam into a quasi-parallel beam,each of the radiation transporting channels being configured to include one of the X-ray lenses and to provide propagation of the extracted part of the single divergent beam and the quasi-parallel beam in an air medium to an input aperture of the corresponding analytical station. 2. The complex according to claim 1, wherein a distance between the analytical station and the corresponding X-ray lens being selected so as to provide a predetermined distance between quasi-parallel beams provided by different radiation transporting channels in an area adjacent the analytical station. 3. The complex according to claim 1, wherein the non-synchrotron radiation source includes an X-ray tube. 4. The complex according to claim 1, wherein the non-synchrotron radiation source includes a plasma X-ray source. 5. The complex according to claim 1, wherein the non-synchrotron radiation source includes a laser X-ray source. 6. The complex according to claim 1, wherein at least one of the analytical stations is configured for carrying out diffractometry researches and comprises:means for placing and orienting a sample under study with respect to the quasi-parallel beam, which is directed to the input aperture of the analytical station,a detector of radiation diffracted on the sample under study,means for positioning the detector and the sample under study relative to each other, andmeans for data processing and imaging responsive to an output of the detector. 7. The complex according to claim 1, wherein at least one of the analytical stations is configured for image formation of an internal structure of a sample and comprises:means for positioning the sample,a detector of radiation passed through the sample, andmeans for visualizing and registering an image. 8. The complex according to claim 1, wherein at least one of the analytical stations is configured for carrying out X-ray lithography and comprises:means for positioning a mask, andmeans for placing a substrate with a layer of resist applied on it,the means for placing is arranged behind the means for positioning the mask. 9. The complex according to claim 1, wherein at least one of the analytical stations is configured for carrying out spectrometric researches and comprises:a further X-ray lens having a number of bent channels configured to provide multiple total external reflection of X-rays from walls of the bent channels, the further X-ray lens is configured to provide radiation focusing of the quasi-parallel beam,means for positioning a sample under study in order to align a required portion of the sample with a region of X-rays focusing,a detector of radiation excited in the sample under study,a spectrometric channel coupled to an output of the detector, andmeans for data processing and imaging responsive to an output of the spectrometric channel. 10. A measuring and testing complex for carrying out researches in an X-ray range of radiation on multiple analytical stations simultaneously, each analytical station being configured for performing predetermined measurements or tests, the complex comprising:a single non-synchrotron radiation source for producing divergent X-rays,multiple radiation transporting channels for transporting radiation from the single non-synchrotron radiation source to the respective multiple analytical stations,an X-ray lens having a number of bent channels configured to provide multiple total external reflection of X-rays from walls of the bent channels,the X-ray lens being configured to extract a part of the divergent X-rays produced by the radiation source and transform the part the divergent X-rays into a quasi-parallel beam,multiple monochromators arranged so as to extract and reflect different parts of the quasi-parallel beam,the X-ray lens being common for the multiple radiation transporting channels configured to provide propagation of the extracted part of the divergent X rays and the quasi-parallel beam,the multiple radiation transporting channels being further configured to include said multiple monochromators and to provide propagation of the different parts of the quasi-parallel beam extracted and reflected by the monochromators in an air medium to input apertures of the respective analytical stations. 11. The complex according to claim 10, wherein the non-synchrotron radiation source includes an X-ray tube. 12. The complex according to claim 10, wherein at least one of the analytical stations is configured for carrying out diffractometry researches and comprises:means for placing and orienting a sample under study with respect to the quasi-parallel beam, which is directed to the input aperture of the analytical station,a detector of radiation diffracted on the sample under study,means for positioning the detector and the sample under study relative to each other, andmeans for data processing and imaging responsive to an output of the detector. 13. The complex according to claim 10, wherein at least one of the analytical stations is configured for image formation of an internal structure of a sample and comprises:means for positioning the sample,a detector of radiation passed through the sample, andmeans for visualizing and registering an image. 14. The complex according to claim 10, wherein at least one of the analytical stations is configured for carrying out X-ray lithography and comprises:means for positioning a mask, andmeans for placing a substrate with a layer of resist applied on it,the means for placing is arranged behind the means for positioning the mask. 15. The complex according to claim 10, wherein at least one of the analytical stations is configured for carrying out spectrometric researches and comprises:a further X-ray lens having a number of bent channels configured to provide multiple total external reflection of X-rays from walls of the bent channels, the further X-ray lens is configured to provide radiation focusing of the quasi-parallel beam,means for positioning a sample under study in order to align a required portion of the sample with a region of X-rays focusing,a detector of radiation excited in the sample under study,a spectrometric channel coupled to an output of the detector, andmeans for data processing and imaging responsive to an output of the spectrometric channel.