Patent Number: 
Section: claims

1. An X-ray beam conditioning device comprising:a crystal holder for supporting both a first crystal block that diffracts X-ray by a specific diffraction angle and a second crystal block that diffracts X-ray by a specific diffraction angle, said first crystal block and said second crystal block being fixedly mounted on said crystal holder, respectively, so that said second crystal block is configured to diffract X-ray emerging from said first crystal block; andcrystal-angle adjusting means for rotating said crystal holder around an axis extending at a right angle to a plane including an optical axis of X-ray, and fixedly supporting said crystal holder at the rotated position,wherein said crystal holder rigidly holds said first crystal block and said second crystal block at such an angle to each other that both crystal blocks diffract X-ray, andsaid first crystal block and said second crystal block are channel-cut crystals that each have two X-ray reflecting surfaces, which oppose each other,said first crystal block is positioned nearer an X-ray source than said second crystal block,said crystal-angle adjusting means rotates said crystal holder to change an angle at which X-ray generated by said X-ray source is applied to one X-ray reflecting surface of said first crystal block, anda rotation axis of said crystal holder extends in one X-ray reflecting surface of said first crystal block. 2. The X-ray beam conditioning device according to claim 1, wherein said crystal-angle adjusting means has a motor whose output shaft is controllable according to a rotation angle, and said crystal holder is coupled directly to said output shaft of said motor. 3. The X-ray beam conditioning device according to claim 1, wherein said crystal-angle adjusting means has a rotary mechanism of a tangent bar type, and said crystal holder is secured to an output shaft of said rotary mechanism of the tangent bar type,wherein said rotary mechanism of the tangent bar type has a rotary stage fixedly holding said crystal holder, a control rod extending outwards from said rotary stage, an eccentric cam abutting on the end of said control rod, and a motor for rotating said eccentric cam. 4. An X-ray analysis apparatus comprising:an X-ray source that generates X-ray to be applied to a sample;X-ray detecting means for detecting X-ray emitted from said sample; andan X-ray beam conditioning device that is arranged between said X-ray source and said sample,wherein the X-ray beam conditioning device is the X-ray beam conditioning device described in claim 1. 5. The X-ray analysis apparatus according to claim 4, wherein said X-ray detecting means detects X-ray diffracted by said sample, while said X-ray detecting means is held at a specific angle relative to X-ray applied from said X-ray source to said sample, and while an angle at which X-ray is applied to said sample is being changed over an angle range for measuring rocking curve. 6. The X-ray analysis apparatus according to claim 4, wherein said X-ray detecting means detects X-ray diffracted by said sample, while an angle at which the X-ray detecting means is held relative to X-ray applied from said X-ray source to said sample is being changed, and while an angle at which X-ray is applied to said sample is being scanned. 7. The X-ray analysis apparatus according to claim 4, wherein an angle at which X-ray is applied to said sample is set to a small angle, and said X-ray detecting means detects X-ray totally reflected by said sample. 8. An X-ray analysis apparatus comprising:an X-ray source that generates X-ray to be applied to a sample;X-ray detecting means for detecting X-ray emitted from said sample; andan X-ray beam conditioning device that is arranged between said sample and said X-ray detecting means,wherein said X-ray beam conditioning device is the X-ray beam conditioning device described in claim 1. 9. An X-ray beam conditioning device comprising:a crystal holder for supporting both a first crystal block that diffracts X-ray by a specific diffraction angle and a second crystal block that diffracts X-ray by a specific diffraction angle, said first crystal block and said second crystal block being fixedly mounted on said crystal holder, respectively, so that said second crystal block is configured to diffract X-ray emerging from said first crystal block; andcrystal-angle adjusting means for rotating said crystal holder around an axis extending at a right angle to a plane including an optical axis of X-ray, and fixedly supporting said crystal holder at the rotated position,wherein said crystal holder rigidly holds said first crystal block and said second crystal block at such an angle to each other that both crystal blocks diffract X-ray, andsaid first crystal block and said second crystal block are channel-cut crystals that each have two X-ray reflecting surfaces, which oppose each other,said first crystal block is positioned nearer an X-ray source than said second crystal block,said crystal-angle adjusting means rotates said crystal holder to change an angle at which X-ray generated by said X-ray source is applied to one X-ray reflecting surface of said first crystal block, anda rotation axis of said crystal holder extends through said first crystal block other than at X-ray reflecting surfaces of said first crystal block. 10. The X-ray beam conditioning device according to claim 9, wherein said crystal-angle adjusting means has a motor whose output shaft is controllable according to a rotation angle, and said crystal holder is coupled directly to said output shaft of said motor. 11. The X-ray beam conditioning device according to claim 9, wherein said crystal-angle adjusting means has a rotary mechanism of a tangent bar type, and said crystal holder is secured to an output shaft of said rotary mechanism of the tangent bar type,wherein said rotary mechanism of the tangent bar type has a rotary stage fixedly holding said crystal holder, a control rod extending outwards from said rotary stage, an eccentric cam abutting on the end of said control rod, and a motor for rotating said eccentric cam. 12. An X-ray analysis apparatus comprising:an X-ray source that generates X-ray to be applied to a sample;X-ray detecting means for detecting X-ray emitted from said sample; andan X-ray beam conditioning device that is arranged between said X-ray source and said sample,wherein the X-ray beam conditioning device is the X-ray beam conditioning device described in claim 9. 13. The X-ray analysis apparatus according to claim 12, wherein said X-ray detecting means detects X-ray diffracted by said sample, while said X-ray detecting means is held at a specific angle relative to X-ray applied from said X-ray source to said sample, and while an angle at which X-ray is applied to said sample is being changed over an angle range for measuring rocking curve. 14. The X-ray analysis apparatus according to claim 12, wherein said X-ray detecting means detects X-ray diffracted by said sample, while an angle at which the X-ray detecting means is held relative to X-ray applied from said X-ray source to said sample is being changed, and while an angle at which X-ray is applied to said sample is being scanned. 15. The X-ray analysis apparatus according to claim 12, wherein an angle at which X-ray is applied to said sample is set to a small angle, and said X-ray detecting means detects X-ray totally reflected by said sample. 16. An X-ray analysis apparatus comprising:an X-ray source that generates X-ray to be applied to a sample;X-ray detecting means for detecting X-ray emitted from said sample; andan X-ray beam conditioning device that is arranged between said sample and said X-ray detecting means,wherein said X-ray beam conditioning device is the X-ray beam conditioning device described in claim 9. 17. An X-ray beam conditioning device comprising:a crystal holder for supporting both a first crystal block that diffracts X-ray by a specific diffraction angle and a second crystal block that diffracts X-ray by a specific diffraction angle, said first crystal block and said second crystal block being fixedly mounted on said crystal holder, respectively, so that said second crystal block is configured to diffract X-ray emerging from said first crystal block; andcrystal-angle adjusting means for rotating said crystal holder around an axis extending at a right angle to a plane including an optical axis of X-ray, and fixedly supporting said crystal holder at the rotated position,wherein said crystal holder rigidly holds said first crystal block and said second crystal block at such an angle to each other that both crystal blocks diffract X-ray, andsaid first crystal block and said second crystal block are channel-cut crystals that each have two X-ray reflecting surfaces, which oppose each other,said first crystal block is positioned nearer an X-ray source than said second crystal block,said crystal-angle adjusting means rotates said crystal holder to change an angle at which X-ray generated by said X-ray source is applied to one X-ray reflecting surface of said first crystal block, anda rotation axis of said crystal holder extends outside said first crystal block and passes a point closer to said X-ray source than to said first crystal block. 18. The X-ray beam conditioning device according to claim 17, wherein said crystal-angle adjusting means has a motor whose output shaft is controllable according to a rotation angle, and said crystal holder is coupled directly to said output shaft of said motor. 19. The X-ray beam conditioning device according to claim 17, wherein said crystal-angle adjusting means has a rotary mechanism of a tangent bar type, and said crystal holder is secured to an output shaft of said rotary mechanism of the tangent bar type,wherein said rotary mechanism of the tangent bar type has a rotary stage fixedly holding said crystal holder, a control rod extending outwards from said rotary stage, an eccentric cam abutting on the end of said control rod, and a motor for rotating said eccentric cam. 20. An X-ray analysis apparatus comprising:an X-ray source that generates X-ray to be applied to a sample;X-ray detecting means for detecting X-ray emitted from said sample; andan X-ray beam conditioning device that is arranged between said X-ray source and said sample,wherein the X-ray beam conditioning device is the X-ray beam conditioning device described in claim 17.