Patent Number: 062367102
Section: claims

1. A curved crystal x-ray optical device comprising the following elements listed in the order in which they are located in said device: a lamella of crystalline material having atomic planes doubly curved with a radius of curvature of 2R.sub.1 in a first plane and R.sub.2 in a second plane perpendicular to the first plane wherein an arc of radius R.sub.1 in said first plane defines a focal circle of radius R.sub.1, with the said crystal lamella having a thickness no greater than about 1/5000 of the smallest radius of curvature and the concave side of said lamella faces outward,  a thin plastic sheet having a thickness of about 0.025-0.1 mm covering a portion of the convex side of said crystal lamella and extending beyond its edges for a distance of 1-3 mm,  a thick bonding layer having a thickness of 10 to 50 times the thickness of the lamella,  a backing plate to which said lamella is attached by said bonding layer, said backing plate having an exterior planar indexing surface whereby the position in a first direction and the orientation in two angles for said lamella are preset relative to a mounting fixture in which said device is used, said mounting fixture having a mating surface for said indexing surface, said direction lying along a line substantially parallel to the large surface of the lamella, said line lying in a plane passing through the center of the lamella and an x-ray source.  a lamella of crystalline material having atomic planes curved to  a toroidal shape with a radius of curvature of 2R.sub.1 in a first plane and R.sub.2 in a second plane perpendicular to the first plane wherein an arc of radius R.sub.1 in said first plane defines a focal circle of radius R.sub.1, with the said crystal lamella having a thickness no greater than about 1/5000 of the smallest radius of curvature and the concave side of said lamella faces outward, a thick bonding layer having a thickness of 10 to 50 times the thickness of the lamella, a backing plate to which said lamella is attached by said bonding layer, said backing plate having an exterior planar indexing surface whereby the position in a first direction and the orientation in two angles for said lamella are preset relative to a mounting fixture in which said device is used, said mounting fixture having a mating surface for said indexing surface, said direction lying along a line substantially parallel to the large surface of the lamella, said line lying in a plane passing through the center of the lamella and an x-ray source.  a) preparing a suitable doubly curved convex mold having a radius of curvature 2R.sub.1 in a first plane and R.sub.2 in a second plane orthogonal to the first plane,  b) preparing a suitable crystal lamella,  c) preparing a piece or pieces of thin plastic sheet having a thickness of approximately 0.025-1 mm.,  d) preparing a suitable pressing fixture attached to said mold and comprising a rectangular piston and a rectangular cavity in which said piston is free to translate, a screw that moves said piston inside said rectangular cavity, and a knob to turn said screw,  e) preparing a suitable backing plate, said backing plate having orthogonal surfaces as needed for indexing the position of the backing plate relative to said piston in said pressing fixture,  f) affixing said backing plate to said piston,  g) positioning, fitting or covering a portion of the convex side of the crystal lamella with the claimed thin plastic sheet such that said sheet extends beyond the edges of the lamella a predetermined distance,  h) assembling said convex mold, with said crystal lamella, a blob of bonding material, said backing plate and said piston inside said pressing fixture in this order,  i) allowing initial setting of the bonding material,  j) turning said screw with said knob to compress bonding material until said crystal is in intimate contact with said mold,  k) allowing bonding material to reach its final hardened state,  l) removing the bonded assembly from the said pressing fixture said mold, and said piston. 2. A curved crystal device as described in claim 1 wherein the thick bonding layer is an epoxy resin. 3. A curved crystal device as described in claim 1 wherein the thick bonding layer is a thermoplastic resin. 4. A curved crystal device as described in claim 1 wherein said backing plate contains a second exterior planar indexing surface at right angles to the first planar indexing surface and also contains a third planar indexing surface hereinafter called the inclined plane which lies at an angle with respect to the said second planar indexing surface whereby the position of said lamella in two directions mutually perpendicular to each other and to said first direction and a third angular orientation of the crystal lamella can be preset relative to said mounting fixture, said mounting fixture now provided with mating surfaces for said second indexing surface and said inclined plane, and a force is applied by the inclined plane on its mating surface by means of a screw, said force pushing the two inclined surfaces together so that they can slide against each other and cause the second indexing surface to be maintained in contact with its mating surface. 5. A curved x-ray optical device as described in claim 1 wherein the concave surface of said crystal lamella is parallel to the atomic planes in the plane of the focal circle so that the Johann geometry is obtained in the plane of the focal circle when the device is used in said mounting fixture. 6. A curved crystal x-ray optical device as described in claim 1 wherein said crystal lamella has its concave surface curved with a radius R.sub.1 in the plane of the focal circle so that the Johansson geometry is obtained in the plane of the focal circle when the device is used in said mounting fixture. 7. A curved crystal x-ray optical device as described in claim 1 wherein R.sub.2 =2R.sub.1 for the said crystal lamella and the concave surfaces of said lamella has a radius of R.sub.2 both in the plane of the focal circle and perpendicular to it yielding a simple spherically curved lamella. 8. A curved crystal x-ray optical device as described in claim 1 wherein R.sub.2 =2R.sub.1 for the said crystal lamella and the concave surface of said lamella has a radius of R.sub.1 in the plane of the focal circle and 2R.sub.1 in the plane perpendicular to it yielding the so-called Wittry geometry. 9. A curved crystal x-ray optical device comprising the following elements listed in the order in which they are located in said device: 10. A curved crystal device as described in claim 9 wherein the thick bonding layer is an epoxy resin. 11. A curved crystal device as described in claim 9 wherein the thick bonding layer is a thermoplastic resin. 12. A curved crystal device as described in claim 9 wherein said backing plate contains a second exterior planar indexing surface at right angles to the first planar indexing surface and also contains a third planar indexing surface hereinafter called the inclined plane which lies at an angle with respect to the said second planar indexing surface whereby the position of said lamella in two directions mutually perpendicular to each other and to said first direction and a third angular orientation of the crystal lamella can be preset relative to said mounting fixture, said mounting fixture now provided with mating surfaces for said second indexing surface and said inclined plane, and a force is applied by the inclined plane on its mating surface by means of a screw, said force pushing the two inclined surfaces together so that they can slide against each other and cause the second indexing surface to be maintained in contact with its mating surface. 13. A curved x-ray optical device as described in claim 9 wherein the concave surface of said lamella is parallel to the atomic planes in the plane of the focal circle so that the Johann geometry is obtained in the plane of the focal circle. 14. A curved crystal x-ray optical device as described in claim 9 wherein said crystal lamella has its concave surface curved with a radius R.sub.1 in the plane of the focal circle so that the Johansson geometry is obtained in the plane of the focal circle. 15. A curved crystal x-ray optical device as described in claim 9 wherein R.sub.2 =2R.sub.1 for the said crystal lamella and the concave surface of said lamella has a radius of R.sub.2 both in the plane of the focal circle and perpendicular to it yielding a simple spherically curved lamella. 16. A curved crystal x-ray optical device as described in claim 9 wherein R.sub.2 =2R.sub.1 for the said crystal lamella and the concave surface of said lamella has a radius of R.sub.1 in the plane of the focal circle and R.sub.1 in the plane perpendicular to it, yielding the so-called Wittry geometry. 17. A method of fabricating a doubly curved x-ray optical device comprising the following steps: 18. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said crystal lamella in step (b) contains two semi-circular indentations along opposite edges, and said mold in step (a) contains two spring-loaded dowel pins, said pins engaging said indentations for the purpose of orienting said crystal lamella with said mold. 19. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said crystal lamella in step (b) is a flat lamella with surfaces parallel to the atomic planes. 20. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said crystal lamella in step (b) is a flat lamella with surfaces making an angle with respect to the atomic planes. 21. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said crystal lamella in step (b) is a cylindrically curved lamella with surfaces parallel to the atomic planes along a midline, said cylindrically curved lamella having a radius of curvature of 2R.sub.1. 22. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said crystal lamella is a cylindrically curved lamella with surfaces making an angle with respect to the atomic planes along a midline, said cylindrically curved lamella having a radius of curvature of 2R.sub.1. 23. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said blob of bonding material in step (g) consists of an epoxy resin. 24. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said blob of bonding material in step (g) consists of a thermoplastic resin. 25. A method for fabricating a curved crystal x-ray optical device as described in claim 17 wherein said blob of bonding material in step (g) consists of a wax.