Optical device for focusing synchrotron radiation light source

The invention claimed is: 1. An optical device for focusing a synchrotron radiation light source, wherein the optical device has an axially symmetric structure that is symmetric about an axis of the optical device, a contour of the optical device includes a quadratic curve segment, that includes a parabolic segment, and the optical device comprising: a plurality of capillary bodies made of transparent material, wherein the capillary bodies in a center region have a solid structure; and wherein the capillary bodies in a periphery region located outside of the center region have a hollow structure. 2. The optical device of claim 1 , wherein an external diameter of a capillary body in the center region is larger than that of a capillary body in the periphery region; or the external diameters of all the capillary bodies are the same. 3. The optical device of claim 1 , wherein a wall thickness of one capillary body is not uniform, and the part of wall which is farther away from the axis of the optical device has a thinner thickness than that of the part of wall which is closer to the axis of the optical device. 4. The optical device of claim 1 , wherein the transparent material is glass material. 5. The optical device of claim 4 , wherein the glass material includes one or more elements of Li, Be and B. 6. The optical device of claim 5 , the capillary body in the periphery region is consisted of a film made of non-transparent material. 7. The optical device of claim 6 , wherein the non-transparent material is metal. 8. The optical device of claim 7 , wherein the metal includes one or more elements of Wolfram, Gold and Platinum. 9. The optical device of claim 1 , wherein the film made of non-transparent material is located on the outer surface of the capillary body. 10. An optical device for focusing a synchrotron radiation light source, comprising: a plurality of capillary bodies made of transparent material; and wherein the capillary bodies in a center region have a solid structure, the capillary bodies in a periphery region located outside of the center region have a hollow structure; and wherein the optical device has a symmetrical structure about an axis of the optical device, a contour of the optical device including a plurality of parabolic segments connected serially, and the opening orientations of plurality of parabolic segments are the same. 11. The optical device of claim 10 , wherein the transparent material is glass material; and wherein a shape of a vertical cross-section of the symmetrical structure comprises edges with opposite openings. 12. The optical device of claim 10 , wherein a wall thickness of one capillary body is not uniform, and the part of wall which is farther away from the axis of the optical device has a thinner thickness than that of the part of wall which is closer to the axis of the optical device.