Patent Number: 
Section: claims

1. A maskless lithography system for producing a pattern on a substrate in a vacuum environment, the maskless lithography system comprising:a writer for generating patterned electron beams, the writer comprising a plurality of light-sensitive areas configured to receive modulated light signals representing the pattern to be produced on the substrate;a plurality of individually controllable light sources;one or more computer systems configured to control the light sources for providing the modulated light signals;a plurality of optical fibers for transporting the modulated light signals from the light sources to the plurality of light-sensitive areas;a stage configured to move the substrate in a movement direction Ss;wherein the writer further comprises a plurality of electrostatic deflectors for simultaneously scanning the patterned electron beams in a scan direction Sm substantially perpendicular to the movement direction Ss,wherein the electrostatic deflectors and the stage are further configured to respectively scan and move in tandem and thereby define continuous paths for patterning the substrate by means of the patterned electron beams. 2. The maskless lithography system of claim 1, wherein the plurality of electrostatic deflectors are further configured to displace the patterned electron beams by the same amount. 3. The maskless lithography system of claim 1, further comprising an aperture plate located upstream of the electrostatic deflectors. 4. The maskless lithography system of claim 1, further comprising a plurality of optical switches configured to couple light emitted from the light sources into and out of the optical fibers, wherein the computer systems are configured to control the light sources by switching the optical switches for providing the modulated light signals. 5. The maskless lithography system of claim 1, wherein the computer systems are configured to control the light sources by switching the light sources on and off. 6. The maskless lithography system of claim 1, further comprising an electrostatic lens configured to focus the patterned electron beams onto the substrate. 7. The maskless lithography system of claim 1, wherein the computer systems and the light sources are located outside the vacuum environment. 8. The maskless lithography system of claim 1, wherein each optical fiber is configured to have one end produce a light spot for projection upon the light sensitive areas and another end receive light from the light sources. 9. A writer for generating patterned electron beams, the writer comprising:a plurality of light-sensitive areas configured to receive modulated light signals representing the pattern to be produced on the substrate; anda plurality of electrostatic deflectors, for simultaneously scanning the patterned electron beams in a scan direction Sm substantially perpendicular to a movement direction Ss,wherein the electrostatic deflectors are further configured to scan in tandem with a stage configured to move a substrate in the movement direction Ss and thereby define continuous paths for patterning the substrate by means of the patterned electron beams. 10. The writer of claim 9, wherein the plurality of electrostatic deflectors are further configured to displace the patterned electron beams by the same amount. 11. The writer of claim 9, further comprising an aperture plate located upstream of the electrostatic deflectors. 12. The writer of claim 9, further comprising an electrostatic lens configured to focus the patterned electron beams onto the substrate. 13. A method for producing a pattern on a substrate in a vacuum environment of a maskless lithography system, the method comprising:controlling individually controllable light sources for providing modulated light representing the pattern to be produced on the substrate;transporting the modulated light from the light sources to a plurality of light-sensitive areas;generating patterned electron beams in response to the plurality of light-sensitive areas receiving the modulated light;moving the substrate in a movement direction Ss;simultaneously scanning the patterned electron beams in a scan direction Sm substantially perpendicular to the movement direction Ss,wherein the moving step and the simultaneously scanning step occur in tandem and thereby define continuous paths for patterning the substrate by means of the patterned electron beams. 14. The method of claim 13, further comprising displacing the patterned electron beams by the same amount. 15. The method of claim 13, wherein the patterned electron beams form an array of columns and rows, and wherein the movement direction Ss is at an angle unequal to zero with one of the columns and rows. 16. The method of claim 15, wherein the angle is about 0.1 to 15 degrees. 17. The method of claim 13, wherein the continuous paths defined by the in tandem moving step and the simultaneously scanning step are stitched. 18. The method of claim 13, wherein the scan direction Sm is at an angle with the movement direction Ss. 19. The maskless lithography system of claim 1, wherein the plurality of deflectors take the form of electrostatic deflection strips. 20. The maskless lithography system of claim 1, wherein the plurality of deflectors are connected to a power source for providing alternatively positive and negative voltages to the deflectors. 21. The maskless lithography system of claim 1, wherein the scan direction Sm is at an angle with the movement direction Ss. 22. The writer of claim 9, wherein the plurality of deflectors take the form of electrostatic deflection strips. 23. The writer of claim 9, wherein the plurality of deflectors are connected to a power source for providing alternatively positive and negative voltages to the deflectors. 24. The writer of claim 9, wherein the scan direction Sm is at an angle with the movement direction Ss.