Patent Number: 
Section: claims

1. A micro beam collimator for compressing X-ray beams for use in a X-ray diffractometer, said collimator comprising:a channel means formed by two opposite, polished oblong flexible plate means for providing a channel guiding said X-ray beams and said channel means having a channel entrance and an exit portion;said plate means made of or coated with a material selected from the group consisting of the heavyweight metals and materials having total reflection properties comparable to those of the heavyweight metals; andadjustment means provided for adjusting a longitudinal profile of said channel and/or the opening width of said channel entrance portion by bending said plate means. 2. A micro beam collimator according to claim 1 wherein said group consists of nickel, wolfram and platinum. 3. A micro beam collimator according to claim 1 wherein said channel has a constant cross-section in said channel exit portion so that a quasi-parallel output X-ray beam is produced. 4. A micro beam collimator according to claim 1 wherein said channel exit portion has a length of less than 50% of the total length (L) of said channel. 5. A micro beam collimator according to claim 1 wherein said channel exit portion has a length less than 30% of the total length (L) of said channel. 6. A micro beam collimator according to claim 1 wherein spacer means are sandwiched in said channel exit portion between said plate means for spacing the same. 7. A micro beam collimator according to claim 6 wherein said spacer means are two noble metal strip foils. 8. A micro beam collimator according to claim 1 wherein said plate means are received in a holding means having a receiving cavity. 9. A micro beam collimator according to claim 8 wherein said receiving cavity has a width increasing in the direction from said channel exit portion to said channel entrance portion. 10. A micro beam collimator according to claim 8 wherein an outer housing means connectable to said holding means is provided for at least partially enclosing said plate means and said holding means. 11. A micro beam collimator according to claim 1 wherein said adjustment means includes two block means each of which being fixed in said channel entrance portion to the outside of each of said plate means; anda plurality of adjustment screws mounted in holding means and interacting with said block means. 12. A micro beam collimator according to claim 1 wherein anti-divergence means is located at said channel exit for stopping oblique radiation. 13. A micro beam collimator according to claim 12 wherein said anti-divergence means is mounted in an end portion of an outer housing means. 14. A micro beam collimator according to claim 13 wherein said end portion is formed by an end cap detachably connectable to the remaining part of said outer housing means. 15. A micro beam collimator according to claim 12 wherein said anti-divergence means includes two diaphragm blocks forming a slit between each other. 16. A micro beam collimator according to claim 15 wherein further spacer means are arranged between said diaphragm blocks for adjusting the width of said slit. 17. A micro beam collimator according to claim 15 wherein aligning means are provided for aligning said slit with said channel exit portion. 18. A method of carrying out high resolution XRD studies, said method comprising the following:using a micro beam collimator for compressing X-ray beams for use in a X-ray diffractometer having a channel means formed by two opposite, polished oblong flexible plate means for providing a channel guiding said X-ray beams and said channel means having a channel entrance and exit portion, said plate means made of or coated with a material selected from the group consisting of the heavyweight metals and materials having total reflection properties comparable to those of the heavyweight metals; andadjusting by adjustment means a longitudinal profile of said channel and/or the opening width of said channel entrance portion by bending the said plate means; anda diffractometer equipped with a micropositioning means for positioning a sample to be scanned. 19. A micro beam collimator for compressing X-ray beams for use in a X-ray diffractometer, said collimator comprising:a channel means formed by two opposite, polished oblong plate means for providing a channel guiding said X-ray beams and said channel means having a channel entrance and an exit portion, said plate means being made of or coated with a material selected from the group consisting of the heavyweight metals and materials having total reflection properties comparable to those of the heavyweight metals, said plate means forming an aperture in said channel exit portion; andan anti-divergence means located at the channel exit portion for stopping oblique radiation, said anti-divergence means including two diaphragm blocks forming a slit between each other, said slit being parallel to said aperture in said channel exit portion. 20. A micro beam collimator according to claim 16 wherein aligning means are provided for aligning said slit with said channel exit portion.