Patent Number: 
Section: claims

1. A beam conversion system comprising: a photoconverter on which is incident a light image, thereby to convert the light image into a charged particle emission pattern;  an electron optical system that demagnifies and focuses the emission pattern onto a resist coated substrate; and  a displacement device comprising a motor, the displacement device being coupled to rotate the photoconverter, wherein the light image illuminates a rotating surface of the photoconverter. 2. The system of  claim 1  wherein the photoconverter comprises a photocathode. claim 1 3. The system of  claim 2 , further comprising: claim 2 a stage that moves the axis of the rotating photoconverter within the plane of the photoconverter. 4. The system of  claim 2  wherein the motor is magnetically coupled to the photoconverter. claim 2 5. The system of  claim 4  wherein the photoconverter is encased in a vacuum casing and wherein the motor is positioned outside of the vacuum casing and wherein the motor is magnetically coupled to the photoconverter. claim 4 6. The system of  claim 1 , wherein the displacement device comprises: claim 1 a stage that moves the photoconverter in an X-Y direction and within the plane of the photoconverter. 7. The system of  claim 1  further comprising: claim 1 a regeneration source positioned to continuously regenerate a portion of the photoconverter while another portion is being used to convert an image. 8. The system of  claim 7  wherein the regeneration source sputters material onto the photoconverter. claim 7 9. The system of  claim 7  wherein the regeneration source deposits material onto the photoconverter by molecular beam epitaxial deposition. claim 7 10. The system of  claim 7  wherein the regeneration source exposes the photoconverter to a molecular beam. claim 7 11. The system of  claim 7  wherein the regeneration source deposits material onto the photoconverter by ion beam deposition. claim 7 12. The system of  claim 7  wherein the regeneration source deposits material onto the photoconverter by condensation from a gas. claim 7 13. The system of  claim 7  wherein the regeneration source comprises: claim 7 a regeneration chamber  a regeneration source positioned within the regeneration chamber, wherein the regeneration source provides regenerative material;  a pump that controls the pressure in the regeneration chamber; and  a nozzle opening, spaced apart from the photoconverter, wherein the nozzle controls the direction and shape of material emitted to the photoconverter. 14. The system of  claim 13  wherein the pressure within the regeneration chamber is higher than the pressure in a region proximate the photoconverter in which the light image is converted into the emission pattern. claim 13 15. The system of  claim 13  wherein the nozzle opening is shaped to provide uniform regeneration of the photoconverter. claim 13 16. The system of  claim 13  wherein the nozzle opening is trapezoid shaped. claim 13 17. The system of  claim 7  wherein the regeneration source continuously regenerates a portion of the photoconverter while another portion of the photoconverter converts the light image into an emission pattern. claim 7 18. The system of  claim 1 , wherein the movement of the photoconverter by the displacement device is rotation about an axis of the photoconverter. claim 1 19. The system of  claim 1 , wherein the photoconverter is ring-shaped. claim 1 20. The system of  claim 1 , wherein the motor rotates the photoconverter about an axis, the motor being coaxial to the axis. claim 1 21. A method of generating a charged particle beam image from a light optical image, the method comprising the acts of: generating a light image;  providing a motor to rotate a photoconverter;  directing the image onto the photoconverter whereby the image is incident on a rotating surface of the photoconverter;  converting, at the photoconverter, the image into a charged particle emission pattern;  demagnifying the emission pattern; and  focusing the demagnified emission pattern onto a substrate. 22. The method of  claim 21  wherein the photoconverter comprises a photocathode. claim 21 23. The method of  claim 20 , further comprising the act of regenerating a portion of the photoconverter. claim 20 24. The method of  claim 23  wherein the act of regenerating comprises the act of sputtering. claim 23 25. The method of  claim 23  wherein the act of regenerating comprises the act of molecular beam deposition. claim 23 26. The method of  claim 23  wherein the act of regenerating comprises the act of exposing the photoconverter to a molecular beam epitaxy. claim 23 27. The method of  claim 23  wherein the act of regenerating comprises the act of ion beam deposition. claim 23 28. The method of  claim 23  wherein the act of regenerating comprises the act of providing condensation from gas. claim 23 29. The method of  claim 23  wherein the act of regenerating comprises removing undesired material. claim 23 30. The method of  claim 23  wherein the act of regenerating comprises the act of using a nozzle opening shaped to provide uniform exposure to the photoconverter. claim 23 31. The method of  claim 21 , wherein the photoconverter device continuously moves. claim 21 32. The method of  claim 21 , wherein the movement of the photoconverter is rotation. claim 21 33. The method of  claim 21 , wherein the photoconverter is ring-shaped. claim 21 34. The method of  claim 21 , wherein the rotation of the photoconverter is about an axis, and wherein the motor is coaxial to the axis to rotate the photoconverter about the axis. claim 21 35. A method of generating a charged particle pattern, comprising the steps of: generating a light image;  providing a photoconverter;  providing a motor to rotate the photoconverter;  rotating the photoconverter relative to an axis of the light image;  directing the light image onto the rotating photoconverter, whereby the image is incident on a rotating surface of the photoconverter;  converting, at the photoconverter, the light image into a charged particle pattern;  demagnifying the charged particle pattern; and  focusing the demagnified charged particle pattern onto a target.