Systems, methods and apparatus for fabricating and utilizing a cathode

The invention claimed is: 1. A field emission device, comprising: a metal cathode substrate; and a patterned carbon fiber fabric, at least a first portion of the patterned carbon fiber fabric is brazed to the metal cathode substrate. 2. The field emission device of claim 1 , further comprising: a vacuum region that surrounds at least a second portion of the carbon fiber fabric that is configured to emit electrons. 3. The field emission device of claim 1 , further comprising: an anode in proximity to the second portion of the carbon fabric configured to emit electrons, the vacuum region separating the anode and a cathode, wherein the cathode comprises the metal cathode substrate and the patterned carbon fiber fabric. 4. The field emission device of claim 3 , further comprising: a voltage source between the anode and the cathode configured to establish an electric field that enables emission of electrons from the carbon fiber fabric to the vacuum region. 5. The field emission device of claim 1 , where the metal cathode substrate further includes copper or stainless steel. 6. The field emission device of claim 1 , where the patterned carbon fiber fabric further includes carbon fibers woven into a cloth. 7. The field emission device of claim 1 , where the patterned carbon fiber fabric further includes carbon fibers interwoven with metallic fibers. 8. The field emission device of claim 1 , where the patterned carbon fiber fabric further includes carbon fibers pressed into a felt. 9. The field emission device of claim 1 , where the patterned carbon fiber fabric further includes a negative electron affinity substance to enhance electron emission. 10. An electron beam generating device comprising a cathode, the cathode comprising the metal cathode substrate and the patterned carbon fiber fabric with a first portion of the patterned carbon fiber fabric brazed to the metal cathode substrate of claim 1 . 11. The electron beam generating device of claim 10 , where the electron beam generating device further includes a linear beam microwave tube. 12. The electron beam generating device of claim 11 , where the linear beam microwave tube further comprises one or more of a klystron, gyrotron, and traveling wave tube. 13. The electron beam generating device of claim 10 , where the electron beam generating device further includes a crossed-field microwave tube. 14. The electron beam generating device of claim 13 , where the crossed-field microwave tube further comprises one or more of a cavity magnetron, recirculating planar magnetron, crossed-field amplifier, and recirculating planar crossed field amplifier. 15. The electron beam generating device of claim 10 , where the electron beam generating device further includes a visual display. 16. The electron beam generating device of claim 10 , where the electron beam generating device further includes a particle accelerator. 17. The field emission device of claim 1 , having a cathode with a a structure formed by a metal layer, a braze layer and a fabric layer. 18. The field emission device of claim 17 , where the structure is formed by staggered layers. 19. The field emission device of claim 1 , where a substantial fraction of emitted electrons is emitted from an edge of the patterned carbon fiber fabric. 20. The field emission device of claim 1 , where the patterned carbon fiber fabric is approximately flush with an adjacent surface of the metal cathode substrate. 21. The field emission device of claim 1 , where the patterned carbon fiber fabric extends beyond an adjacent surface of the metal cathode substrate and impinges into a vacuum space. 22. The field emission device of claim 1 , where the patterned carbon fiber fabric includes carbon nanotubes. 23. A field emission device comprising: a metal cathode substrate; a carbon fiber fabric formed into a pattern configured to cover at least a first portion of the metal cathode substrate; and a braze alloy or metallic compound, having a predetermined form prior to brazing, configured to form a carbon to metal bond. 24. The field emission device of claim 23 , further comprising: a vacuum region that surrounds at least a second portion of the carbon fiber fabric that is configured to emit electrons. 25. The field emission device of claim 24 , further comprising: an anode and a cathode, the cathode comprising the metal cathode substrate, the carbon fiber fabric formed into a pattern configured to cover at least a first portion of the metal cathode substrate, and the braze alloy or metallic compound of claim 23 and the second portion of the carbon fiber fabric that is configured to emit electrons; wherein the anode is in proximity to the second portion of the carbon fabric configured to emit electrons, the vacuum region separating the anode and the cathode. 26. The field emission device of claim 25 , further comprising: a voltage source between the anode and the cathode configured to establish an electric field that enables emission of electrons from the carbon fiber fabric to the vacuum region. 27. The field emission device of claim 23 , further comprising: a polyphase layer structure adhering a metallic compound substrate to the carbon fiber fabric. 28. The field emission device of claim 27 , where the polyphase layer structure is based in part on a chemical reaction between the surface of individual carbon fibers being wet by the braze alloy or metallic compound. 29. A system comprising: an anode; and a cathode having a metal cathode substrate and a patterned carbon fiber fabric, at least a first portion of the patterned carbon fiber fabric brazed to the metal cathode substrate and in operation an applied voltage is configured to propagate electrons from the carbon fiber toward the anode. 30. The system of claim 29 , further comprising: a vacuum region that surrounds at least a second portion of the carbon fiber fabric. 31. The system of claim 29 , further comprising: an electron beam generating device, where a continuous magnetic field is proximate to a region of the cathode and a beam propagation region of the electron beam generating device. 32. The system of claim 31 , where the anode is the electron beam generating device.