12CaO-7Al2O3 electride hollow cathode

What is claimed is: 1. A hollow cathode discharge apparatus, comprising: a metal tube having a first end and a second end, an outside surface and an inside surface; a metal end cap having an orifice with a chosen diameter adapted to attach to the second end of said tube; a tubular graphite liner having an outer surface, a first open end and a second end, adapted to be inserted into said metal tube, and in electrical contact therewith, with the second end thereof disposed in the vicinity of said end cap; a 12CaO-7Al 2 O 3 electride material disposed inside of said tubular graphite liner in the vicinity of said metal end cap; and a keeper element disposed outside of said tube in the vicinity of said end cap. 2. The discharge apparatus of claim 1 , further comprising an electrode or plasma anode disposed outside of said keeper. 3. The discharge apparatus of claim 1 , wherein said metal tube is chosen from tantalum, tungsten and molybdenum, and alloys thereof. 4. The discharge apparatus of claim 1 , wherein said metal tube is chosen from titanium, nickel and steel, and alloys thereof. 5. The discharge apparatus of claim 1 , wherein said metal end cap is chosen from tantalum, tungsten, and molybdenum, and alloys thereof. 6. The discharge apparatus of claim 5 , wherein said metal cap comprises thoriated tungsten. 7. The discharge apparatus of claim 1 , wherein said metal end cap is welded to said metal tube. 8. The discharge apparatus of claim 1 , further comprising a heat shield on the outside surface of said metal tube. 9. The discharge apparatus of claim 1 , wherein the second end of said graphite insert has a circumferential graphite lip. 10. The discharge apparatus of claim 1 , wherein said keeper comprises a wire keeper. 11. The discharge apparatus of claim 1 , wherein said keeper comprises a cylindrical graphite keeper having an orifice, a chosen outer diameter, and an outer face, enclosing a portion of said tube in the region of said end cap. 12. The discharge apparatus of claim 11 , further comprising a conducting cylinder having a chosen length and an inner diameter equal to the outer diameter of said graphite keeper, in electrical contact with said keeper for extending the length of said graphite keeper from the outer face thereof. 13. The discharge apparatus of claim 1 , further comprising at least one magnet or electromagnet for generating an axial magnetic field in the region of the orifice of said keeper. 14. The discharge apparatus of claim 12 , further comprising at least one magnet or electromagnet for generating an axial magnetic field in the region of the orifice of said keeper. 15. The discharge apparatus of claim 1 , further comprising a metal foil wrapped around the outside surface of said graphite liner for providing electrical contact between said tube and said graphite liner. 16. A hollow cathode discharge apparatus, comprising: a metal tube having a first end and a second end, an outside surface and an inside surface; a metal end cap having an orifice with a chosen diameter adapted to attach to the second end of said tube; a tubular graphite insert having a closed first end and an open second end adapted to be inserted into said metal tube, the second end of said insert being disposed in the vicinity of said end cap; wherein said metal tube is dimpled in the region of the first end of said graphite insert for holding said insert in position in said tube, and for making electrical contact therewith; a 12CaO-7Al 2 O 3 electride material generated in said tubular graphite insert and filling said insert to about the second end thereof; and a keeper element disposed outside of said tube in the vicinity of said end cap. 17. The discharge apparatus of claim 16 , further comprising an electrode or plasma anode disposed outside of said keeper. 18. The discharge apparatus of claim 16 , wherein said metal tube is chosen from tantalum, tungsten and molybdenum, and alloys thereof. 19. The discharge apparatus of claim 16 , wherein said metal tube is chosen from titanium, nickel and steel, and alloys thereof. 20. The discharge apparatus of claim 16 , wherein said metal end cap is chosen from tantalum, tungsten, and molybdenum, and alloys thereof. 21. The discharge apparatus of claim 20 , wherein said metal cap comprises thoriated tungsten. 22. The discharge apparatus of claim 16 wherein said metal end cap is welded to said metal tube. 23. The discharge apparatus of claim 16 , further comprising a heat shield on the outside surface of said metal tube. 24. The discharge apparatus of claim 16 , wherein the second end of said graphite insert has a circumferential graphite lip. 25. The discharge apparatus of claim 16 , wherein said keeper comprises a wire keeper. 26. The discharge apparatus of claim 16 , wherein said keeper comprises a cylindrical graphite keeper having an orifice, a chosen outer diameter, and an outer face, enclosing a portion of said tube in the region of said end cap. 27. The discharge apparatus of claim 26 , further comprising a conducting cylinder having a chosen length and an inner diameter equal to the outer diameter of said graphite keeper, in electrical contact with said keeper for extending the length of said graphite keeper from the outer face thereof. 28. The discharge apparatus of claim 16 , further comprising at least one magnet or electromagnet for generating an axial magnetic field in the region of the orifice of said keeper. 29. The discharge apparatus of claim 27 , further comprising at least one magnet or electromagnet for generating an axial magnetic field in the region of the orifice of said keeper.