Patent Number: 051577020
Section: claims

1. A mechanically actuated double crystal monochromator comprising: a platform,  a first crystal assembly and means for mounting said first crystal assembly for pivotal movement on said platform,  a frame and means for mounting said frame on said platform for linear movement with respect to said platform,  a second crystal assembly and means for mounting said second crystal assembly for pivotal movement on said frame, and  means operatively connected to said first and second crystal assemblies for maintaining a predetermined relationship between said crystal assemblies on linear movement of said frame with respect to said first crystal assembly including a boomerang having a first leg operatively connected to pivot said first crystal assembly, and  a second leg operatively connected to pivot said second crystal assembly on linear movement of said second crystal assembly with respect to said first crystal assembly, the first and second legs having a point of intersection,  wherein said first leg of said boomerrang is mounted in a perpendicular relation to said second leg of said boomerang and including a carriage for supporting said boomerang for pivotal movement about the point of intersection of said first leg with said second leg, and  a counterweight connected to the boomerang to balance the boomerang for pivoting.  a boomerang having a first leg operatively connected to pivot said first crystal assembly, and  a second leg operatively connected to pivot said second crystal assembly on linear movement of said second crystal assembly with respect to said first crystal assembly.  a radiator having a plurality of concentric heat radiating cylinders and a heat exchanger having a plurality of concentric fluid cooling cylinders axially aligned with said radiating cylinders and means for circulating cooling fluid through said cooling cylinders.  a boomerang having a first leg operatively connected to pivot said first crystal assembly, and  a second leg operatively connected to pivot said second crystal assembly on linear movement of said second crystal assembly with respect to said first crystal assembly.  a radiator having a plurality of concentric heat radiating cylinders and a heat exchanger having a plurality of concentric fluid cooling cylinders axially aligned with said radiating cylinders and means for circulating cooling fluid through said cooling cylinders.  a platform;  a first crystal assembly and means for mounting the first crystal assembly for pivotal movement on said platform;  a frame and means for mounting the frame on the platform for linear movement with respect to said platform;  a second crystal assembly and means for mounting the second crystal assembly for pivotal movement on said frame;  means operatively connected to said first and second crystal assemblies for maintaining a predetermined relationship between said crystal assemblies on linear movement of said frame with respect to said first crystal assembly; and  means for cooling by radiation heat transfer said first crystal assembly and means for heating said second crystal assembly.  a radiator having a plurality of concentric heating radiating cylinders and a heat exchanger having a plurality of concentric fluid cooling cylinders axially aligned with said radiating cylinders and means for circulating cooling fluid through said cooling cylinders.  a support member having a precision supporting surface,  an ultra high vacuum chamber mounted on said supporting surface, the chamber having a synchrotron radiation beam inlet and outlet,  a platform in the vacuum chamber and means extending into the vacuum chamber for supporting said platform on the supporting surface independently of the vacuum chamber,  an entrance crystal assembly and means for mounting said entrance crystal assembly for pivotal movement on said platform in said chamber in alignment with said beam inlet,  an exit crystal assembly and means for mounting said exit crystal assembly for pivotal and linear movement on said platform in said chamber and positioned in alignment with said beam outlet, and  a boomerang mechanically connected to said entrance crystal assembly and said exit crystal assembly to simultaneously pivot said entrance crystal assembly and said exit crystal assembly on linear movement of said exit crystal assembly whereby a radiation beam entering said inlet is diffracted from said entrance crystal assembly to said exit crystal assembly for reflection through said outlet.  a second leg operatively connected to pivot said second crystal assembly about a second axis on linear movement of said second crystal assembly with respect to said first crystal assembly.  an ultra high vacuum chamber having a synchrotron radiation beam inlet and outlet,  a platform mounted in the vacuum chamber,  an entrance crystal assembly and means for mounting the entrance crystal assembly for pivotal movement on the platform in said chamber in alignment with said beam inlet,  an exit crystal assembly and means for mounting the exit crystal assembly for pivotal and linear movement on the platform in said chamber and positioned in alignment with said beam outlet,  a boomerang mechanically connected to said entrance crystal assembly and said exit crystal assembly to simultaneously pivot said entrance crystal assembly and said exit crystal assembly on linear movement of said exit crystal assembly whereby a radiation beam entering said inlet is diffracted from said entrance crystal assembly to said exit crystal assembly for reflection through said outlet, and  means for cooling by radiation heat transfer said first crystal assembly and means for heating said second crystal assembly.  a radiator connected to the entrance crystal assembly having a plurality of concentric heat radiating cylinders and a heat exchanger having a plurality of concentric fluid cooling cylinders axially aligned with said radiating cylinders and means for circulating cooling fluid through said cooling cylinders.  an ultra high vacuum chamber having a synchrotron radiation beam inlet and outlet,  a platform mounted in said chamber,  an entrance crystal assembly and means for mounting the entrance crystal assembly for pivotal movement on said platform, and assembly having a crystal mounted thereon,  a frame and means for mounting the frame for linear movement in the vacuum chamber,  an exit crystal assembly and means for mounting the exit crystal assembly for pivotal movement on said frame, the assembly having a crystal mounted thereon,  a boomerang assembly mounted on said platform for linear motion with respect to said platform and being operatively connected to said crystal assemblies for maintaining a predetermined relationship between said crystals on linear movement of said frame,  wherein said boomerang assembly includes a first guide surface and a second guide surface, said guide surfaces intersecting at a right angle,  a first slider assembly connected to said first crystal assembly and being mounted on said boomerang assembly to slide on said first guide surface, said entrance crystal being mounted in a plane perpendicular to said first guide surface, and a second slider assembly connected to said second crystal assembly and being mounted on said boomerang assembly to slide on said second guide surface, said second crystal being located in a parallel relation to said first crystal, whereby said slider assemblies will maintain said first and second crystals in a parallel relation on linear movement of said frame,  wherein each of said slider assemblies includes a slide arm, a pair of roller bearing races in said slide arm and a plurality of bearing elements mounted in each of said races, said bearing elements being positioned to ride on said guide surfaces, and means mounted in said arm for equalizing the forces acting on the bearing elements riding on said surface.  a platform;  a first crystal assembly and means for mounting the first crystal assembly for pivotal movement on said platform;  a frame and means for mounting the frame on the platform for linear movement with respect to said platform;  a second crystal assembly and means for mounting the second crystal assembly for pivotal movement on said frame;  means operatively connected to said first and second crystal assemblies for maintaining a predetermined relationship between said crystal assemblies on linear movement of said frame with respect to said first crystal assembly; and  a radiator, connected to the first crystal assembly, having a plurality of concentric heat radiating cylinders, and a heat exchanger having a plurality of concentric fluid cooling cylinders axially aligned with said radiating cylinders and means for circulating cooling fluid through said cooling cylinders.  an ultra high vacuum chamber having a synchrotron radiation beam inlet and outlet,  a platform mounted in said chamber,  an entrance crystal assembly and meand for mounting the entrance crystal assembly for pivotal movement on said platform, the assembly having an entrance crystal mounted thereon,  a frame and means for mounting the frame for linear movement in the vacuum chamber,  an exit crystal assembly and means for mounting the exit crystal assembly for pivotal movement on said frame, the assembly having an exit crystal mounted thereon,  a boomerang assembly mounted on said platform and being operatively connected to said crystal assemblies for maintaining a predetermined relationship between said crystals on linear movement of as frame,  wherein said boomerang assembly includes a framework, a first block having a first guide surface, a second block having a second guide surface, and means for mounting the first and second blocks to the framework so that said guide surfaces intersect at a right angle, with one of the blocks being spring mounted so that the block can resiliently be flexed about one end thereof, said means for mounting including a flexural hinge having a pin positioned to engage the block to cause the block to flex about the one end, one side of the hinge fixed to the framework and a free side of the hinge, and adjustment means on the flexural hinge for adjusting the hinge to cause the pin to press against the block and allow adjustment of the angle of the blocks with respect to each other;  a first slider assembly connected to said entrance crystal assembly and being mounted on said boomerang assembly to slide on said first guide surface, said entrance crystal being mounted in a plane perpendicular to said first guide surface, and a second slider assembly connected to said exit crystal assembly and being mounted on said boomerang assembly to slide on said second guide surface, said exit crystal being located in a parallel relation to said entrance crystal, whereby said slider assemblies will maintain said entrance and exit crystals in a parallel relation on linear movement of said frame. 2. The monochromator according to claim 1 including a counterweight connected to the frame to balance the frame with respect to linear movement of the frame. 3. The monochromator according to claim 1 wherein the first crystal assembly has an axis of pivotal movement and said first leg is connected to pivot about the axis of pivotal movement of said first crystal assembly. 4. The monochromator according to claim 3 wherein the second crystal assembly has an axis of pivotal movement and the axis of pivotal movement of said second crystal assembly and the axis of pivotal movement of the boomerang move in parallel planes with respect to each other and parallel to a plane passing through the axis of pivotal movement of said first crystal assembly. 5. The monochromator according to claim 4 wherein the plane of the pivot axis of the boomerang is equally spaced from the planes passing through the axes of pivotal movement of the first and second crystal assemblies. 6. The monochromator according to claim 1 including a vacuum chamber enclosing said first and second crystal assemblies and said maintaining means. 7. The monochromator according to claim 6 wherein said maintaining means comprises: 8. The monochromator according to claim 7 wherein said first leg of said boomerang is mounted in a perpendicular relation to said second leg of said boomerang and a carriage for supporting said boomerang for pivotal movement about the point of intersection of said first leg with said second leg. 9. The monochromator according to claim 8 wherein the first crystal assembly pivots about an axis and said first leg is connected to pivot about the same axis as said first crystal assembly. 10. The monochromator according to claim 9 wherein the second crystal assembly has an axis of pivotal movement about which it pivots and the boomerang has an axis of pivotal movement about which it pivots, and wherein the axis of pivotal movement of said second crystal assembly and the axis of pivotal movement of said boomerang move in parallel planes with respect to each other and parallel to a plane passing through the pivot axis of said first crystal assembly. 11. The monochromator according to claim 10 wherein the plane of the pivot axis of the boomerang is equally spaced from the planes passing through the axes of pivotal movement of said first and second crystal assemblies. 12. The monochromator according to claim 6 including means for cooling one of said crystal assemblies and means for heating the other of said crystal assemblies. 13. The monochromator according to claim 12 including means for sensing the temperature of said first and second crystal assemblies, said sensing means energizing said heating means to raise the temperature of said second crystal assembly to the temperature of said first crystal assembly. 14. The monochromator according to claim 12 wherein said cooling means includes: 15. The monochromator according to claim 14 wherein said radiator is mounted to pivot with said first crystal assembly and said heat exchanger is mounted on said chamber. 16. The monochromator according to claim 6 including means for supporting said vacuum chamber, and said supporting means supporting said platform in said chamber independently of the chamber, and a linear slide mounted on said supporting means and being operatively connected to move said frame independent of said chamber and platform. 17. The monochromator according to claim 16 wherein said maintaining means comprises: 18. The monochromator according to claim 17 wherein said first leg of said boomerang is mounted in a perpendicular relation to said second leg of said boomerang and a carriage for supporting said boomerang for pivotal movement about the line of intersection of said first leg with said second leg. 19. The monochromator according to claim 18 wherein said first leg is connected to pivot about the axis of said first crystal assembly. 20. The monochromator according to claim 19 wherein the axis of pivotal movement of said second crystal assembly and the axis of pivotal movements of said boomerang move in parallel planes with respect to each other and parallel to a plane passing through the pivot axis of said first crystal assembly. 21. The monochromator according to claim 20 wherein the plane of movement of the axis of pivotal movement of said boomerang is equally spaced from the planes passing through the axes of pivotal movement of said first and second crystal assemblies. 22. The monochromator according to claim 21 including means for cooling said first crystal assembly and means for heating said second crystal assembly. 23. The monochromator according to claim 22 wherein said cooling means includes: 24. The monochromator according to claim 23 wherein said radiator is mounted to pivot with said first crystal assembly and said heat exchanger is mounted on said chamber. 25. A mechanically actuated double crystal monochromator comprising: 26. The monochromator according to claim 25 including means for sensing the temperature of said first crystal assembly and said second crystal assembly, said sensing means energizing said heating means to raise the temperature of said second crystal assembly to the temperature of said first crystal assembly. 27. The monochromator according to claim 25 wherein said cooling means includes: 28. A double crystal monochromator comprising: 29. The monochromator according to claim 28 wherein said boomerang includes a first leg operatively connected to pivot said first crystal assembly about a first axis, and 30. The monochromator according to claim 29 wherein said first leg of said boomerang is mounted in a perpendicular relation to said second leg of said boomerang and the first and second legs have a point of intersection and including a carriage mounted for linear movement on said platform, said boomerang being supported by said carriage for pivotal movement about the point of intersection of said first leg with said second leg. 31. The monochromator according to claim 30 wherein said first leg is connected to pivot about said first axis. 32. The monochromator according to claim 31 wherein said second axis of the second crystal assembly and the axis of pivotal movement of said boomerang move in parallel planes with respect to each other and parallel to a plane passing through said first axis of said first crystal assembly. 33. The monochromator according to claim 32 wherein the plane of the pivot axis of the boomerang is equally spaced from the planes passing through said first and second axes of the first and second crystal assemblies. 34. A double crystal monochromator comprising: 35. The monochromator according to claim 34 including means for sensing the temperature of said first and second crystal assemblies. 36. The monochromator according to claim 34 wherein said cooling means includes: 37. The monochromator according to claim 36 wherein said radiator is mounted to pivot with said entrance crystal assembly and said heat exchanger is mounted in a fixed position on said chamber. 38. A mechanically actuated double crystal monochromator comprising: 39. The monochromator according to claim 38 wherein said equalizing means comprises a dowel mounted in said slide arm between said races and a guide block pivotally mounted to said dowel for supporting said ball bearings riding on said surfaces. 40. The monochromator according to claim 38 including means for cooling said entrance crystal, means for heating said exit crystal, and means for monitoring the temperature of said entrance and exit crystals whereby the temperature of said exit crystal can be maintained at the same temperature as said entrance crystal. 41. The monochromator according to claim 38 including a radiator mounted to rotate with said entrance crystal and a heat exchanger mounted on said vacuum chamber in close proximity to said radiator whereby said radiator is free to rotate with respect to said heat exchanger. 42. The monochromator according to claim 41 wherein said radiator includes a number of coaxially arranged heat radiating cylinders and said heat exchanger includes a plurality of coaxially arranged fluid circulating heat exchange cylinders coaxially arranged with said heat radiating cylinders whereby said heat radiating cylinders are free to rotate with respect to said heat exchange cylinders. 43. A mechanically actuated double crystal monochromator comprising: 44. The monochromator of claim 43 including a counterweight connected to the first crystal assembly to balance the weight of the radiator with respect to pivotal movement of the first crystal assembly. 45. A mechanically actuated double crystal monochromator comprising: 46. The double crystal monochromator of claim 45 wherein the adjustment means includes a screw threaded through one side of the flexural hinge into contact with the other side to flex the flexural hinge to apply pressure with the pin of the hinge against the one block.