Patent Number: 
Section: claims

1. A mirror to totally reflect X-rays comprising:a silicon plate body subjected to plastic deformation, wherein the silicon plate body includes a reflecting surface, the reflecting surface of the silicon plate body having a degree of smoothness at an angstrom level for total X-ray reflection, wherein the reflecting surface of the silicon plate body is plastically deformed to have a given curved surface shape configured to totally reflect X-rays; anda large number of X-ray passage grooves formed on a reverse side of the reflecting surface of the silicon plate body to extend parallel to each other, wherein the large number of X-ray passage grooves are formed before the silicon plate body is subjected to the plastic deformation. 2. The mirror as defined in claim 1, wherein the curved surface shape of the reflecting surface of the silicon plate body includes a part of a paraboloid of revolution and a part of a hyperboloid of revolution. 3. The mirror as defined in claim 1, wherein the large number of X-ray passage grooves are formed by lithography. 4. A reflecting device to totally reflect X-rays comprising a plurality of mirrors, wherein each of the plurality of mirrors is a mirror that is comprised of:a silicon plate body subjected to plastic deformation, wherein the silicon plate body includes a reflecting surface, the reflecting surface of the silicon plate body having a degree of smoothness at an angstrom level for total X-ray reflection, wherein the reflecting surface of the silicon plate body is plastically deformed to have a given curved surface shape configured to totally reflect X-rays; anda large number of X-ray passage grooves formed on a reverse side of the reflecting surface of the silicon plate body to extend parallel to each other, wherein the large number of X-ray passage grooves are formed before the silicon plate body is subjected to the plastic deformation, wherein the curved surface shape of the reflecting surface of the silicon plate body includes a part of a paraboloid of revolution and a part of a hyperboloid of revolution;wherein the plurality of mirrors are arranged around a straight line so that the straight line becomes a rotation axis for the plurality of minors, and wherein an angle of each of the plurality of mirrors is set to allow X-rays entering parallel to the rotation axis to be reflected once at each of the paraboloid-of-revolution surface and the hyperboloid-of-revolution surface, and then converged. 5. A reflector to totally reflect X-rays comprising:a plurality of reflecting mirrors, wherein each of the plurality of reflecting minors is a minor that is comprised of:a silicon plate body subjected to plastic deformation, wherein the silicon plate body includes a reflecting surface, the reflecting surface of the silicon plate body having a degree of smoothness at an angstrom level for total X-ray reflection, wherein the reflecting surface of the silicon plate body is plastically deformed to have a given curved surface shape configured to totally reflect X-rays; anda large number of X-ray passage grooves formed on a reverse side of the reflecting surface of the silicon plate body to extend parallel to each other, wherein the large number of X-ray passage grooves are formed before the silicon plate body is subjected to the plastic deformation;wherein the plurality of reflecting mirrors are laminated such that the reflecting surface and the groove-formed reverse side are opposed to each other, and wherein the reflector is configured to allow X-rays entering one of the large number of X-ray passage grooves approximately parallel thereto to undergo total reflection at the reflecting surface of the silicon plate body opposed to the groove, and then exit from a distal end of the groove. 6. A reflecting device to totally reflect X-rays comprising:a plurality of reflectors, wherein each of the plurality of reflectors is a reflector that comprises:a plurality of reflecting minors, wherein each of the plurality of reflecting mirrors is a mirror that is comprised of:a silicon plate body subjected to plastic deformation, wherein the silicon plate body includes a reflecting surface, the reflecting surface of the silicon plate body having a degree of smoothness at an angstrom level for total X-ray reflection, wherein the reflecting surface of the silicon plate body is plastically deformed to have a given curved surface shape configured to totally reflect X-rays; anda large number of X-ray passage grooves formed on a reverse side of the reflecting surface of the silicon plate body to extend parallel to each other, wherein the large number of X-ray passage grooves are formed before the silicon plate body is subjected to the plastic deformation;wherein the plurality of reflecting minors are laminated such that the reflecting surface and the groove-formed reverse side are opposed to each other, and wherein the reflector is configured to allow X-rays entering one of the large number of X-ray passage grooves approximately parallel thereto to undergo total reflection at the reflecting surface of the silicon plate body opposed to the groove, and then exit from a distal end of the groove,wherein the plurality of reflectors are arranged around a straight line parallel to an entrance direction of X-rays so that the straight line becomes a rotation axis for the plurality of reflectors, in such a manner as to allow the X-rays exiting from the plurality of reflectors to be converged. 7. A method of producing a reflecting mirror to totally reflect X-rays, comprising:a smoothing operation of smoothing a surface of a silicon plate to a degree of smoothness at an angstrom level for total X-ray reflection;a groove forming operation of forming a large number of parallel grooves on a reverse surface of the silicon plate; anda plastically deforming operation of applying pressure and heat to the silicon plate by a master die having a given curved surface shape, to cause plastic deformation therein and thereby form the surface of the silicon plate to have the given curved surface shape configured to totally reflect X-rays, wherein the plastically deforming operation is performed after the groove forming operation. 8. The method as defined in claim 7, wherein the curved surface shape of the silicon plate includes a part of a paraboloid of revolution and a part of a hyperboloid of revolution. 9. The method as defined in claim 8, wherein the plastically deforming operation includes simultaneously performing annealing in hydrogen atmosphere. 10. The method as defined in claim 7, wherein the plastically deforming operation includes simultaneously performing annealing in hydrogen atmosphere. 11. The method as defined in claim 7, which comprises an operation of, after the plastically deforming operation, forming a single-layer or multilayer metal thin film on the smoothed silicon surface. 12. The method as defined in claim 7, wherein the groove forming operation includes lithography.