Apparatus and method for in-situ charging of superconductors

What is claimed is: 1. An apparatus for charging a first superconductor in-situ in a machine comprising: the first superconductor; a magnet that magnetizes the first superconductor, wherein when the magnet is energized, magnetic flux exits the magnet and impinges a surface of the first superconductor such that at least some of the magnetic flux enters and becomes trapped in the first superconductor to magnetize the first superconductor; and a second superconductor that compresses the magnetic flux generated by the magnet such that the magnetic flux exits the second superconductor via an aperture on a surface of the second superconductor and then impinges on the surface of the first superconductor, wherein the magnet is moved to scan a surface area of the first superconductor in axial and transverse directions relative to center line axis passing through the surface such that the magnetic flux exiting the magnet impinges the surface of the first superconductor one portion at a time. 2. The apparatus of claim 1 wherein a surface area of the magnet is smaller than the surface area of the first superconductor. 3. The apparatus of claim 1 wherein the magnet is a permanent magnet. 4. The apparatus of claim 1 wherein the second superconductor comprises: a frustum hole extending through the second superconductor; and a first aperture on a surface of the second superconductor; wherein the first aperture is contiguous with the frustum hole; and wherein the magnetic flux is compressed in the frustum hole of the second superconductor and exits the second superconductor via the first aperture on a surface of the second superconductor. 5. The apparatus of claim 4 wherein a diameter of the first aperture is less than a diameter of the first superconductor. 6. The apparatus of claim 1 wherein the first superconductor is scanned by the magnet as the first superconductor is moved. 7. The apparatus of claim 1 wherein the first superconductor is magnetized by the magnet after the first superconductor is assembled within the machine. 8. The apparatus of claim 1 wherein the first superconductor is cooled prior to being magnetized. 9. An apparatus for charging a first superconductor in-situ in a machine comprising: the first superconductor; a magnet that magnetizes the first superconductor, wherein when the magnet is energized, magnetic flux exits the magnet and impinges a surface of the first superconductor such that at least some of the magnetic flux enters and becomes trapped in the first superconductor to magnetize the first superconductor; and a second superconductor that compresses the magnetic flux generated by the magnet, wherein the second superconductor comprises a frustum hole extending through the second superconductor; a first aperture on a surface of the second superconductor; wherein the first aperture is contiguous with the frustum hole; at least one additional aperture on a surface of the second superconductor that is also contiguous with the frustum hole; wherein the magnetic flux is compressed in the frustum hole of the second superconductor and exits the second superconductor via the first aperture on a surface of the second superconductor, and wherein the magnet is moved to scan a surface area of the first superconductor in axial and transverse directions relative to center line axis passing through the surface such that the magnetic flux exiting the magnet impinges the surface of the first superconductor one portion at a time. 10. The apparatus of claim 9 wherein the first aperture and the at least one additional aperture have the same diameter. 11. The apparatus of claim 9 wherein the first aperture and the at least one additional aperture have differing diameters. 12. A method of charging a first superconductor in-situ in a machine comprising the steps of: energizing a magnetizer comprising a magnet; magnetizing the first superconductor by the magnetizer scanning a surface area of a first superconductor in axial and transverse directions relative to center line axis passing through a top surface one portion at a time such that magnetic flux exits the magnetizer, impinges a surface of the first superconductor, and enters the first superconductor; and compressing the magnetic flux generated by the magnet by a second superconductor such that the magnetic flux exits the second superconductor via an aperture on a surface of the second superconductor and then impinges on the surface of the first superconductor. 13. The method of claim 12 wherein a surface area of the magnetizer is smaller than the surface area of the first superconductor. 14. The method of claim 12 wherein the magnetizer comprises a permanent magnet. 15. The method of claim 12 wherein the magnetizing step comprises the step of moving the first superconductor such that the surface area of the first superconductor is scanned by the magnetizer. 16. The method of claim 12 further comprising the step of assembling the first superconductor in the machine prior to magnetizing the first superconductor. 17. The method of claim 16 further comprising the step of cooling the first superconductor after the assembling step and prior to the magnetizing step.