Patent Number: 
Section: claims

1. A plasma radiation source for extreme ultraviolet electromagnetic radiation comprising: electrodes connected to a source of high electrical potential and constructed and arranged to allow a first plasma state to compress into a pinch volume by an electrical current induced in said first plasma state and a corresponding magnetic field;  a fluid supply for a working fluid to be brought into a high-temperature plasma state to emit extreme ultraviolet electromagnetic radiation; and  a primary jet nozzle constructed and arranged to inject said working fluid into said pinch volume so as to be brought into said high-temperature plasma state by compression of said first plasma state into said pinch volume. 2. A radiation source according to  claim 1  wherein said working fluid is liquid. claim 1 3. A radiation source according to  claim 2  wherein said jet nozzle jets said working fluid in one of a cluster jet and a droplet-like jet. claim 2 4. A radiation source according to  claim 1  wherein said working fluid is selected from the group comprising Li vapor, Krypton, Xenon, water and cryogenic liquids. claim 1 5. A radiation source according to  claim 1  wherein said radiation source is a plasma focus source. claim 1 6. A radiation source according to  claim 1  wherein said radiation source is a Z-pinch plasma source. claim 1 7. A radiation source according to  claim 1  wherein said radiation source is a capillary discharge plasma source. claim 1 8. A radiation source according to  claim 5  wherein said electrodes comprise an anode and a cathode configured and arranged to create a plasma by a discharge in a driver fluid between said anode and said cathode, said cathode comprising a hollow cavity having an aperture and said aperture having a substantially annular configuration around a central axis of said radiation source. claim 5 9. A radiation source according to  claim 8 , wherein said cavity has a substantially annular configuration around the central axis of the radiation source. claim 8 10. A radiation source according to  claim 8 , wherein said working fluid is supplied in a region around said central axis in between said anode and cathode. claim 8 11. A radiation source according to  claim 10 , wherein said working fluid is supplied along said central axis. claim 10 12. A radiation source according to  claim 1 , further comprising: claim 1 a supply for a secondary fluid; and  a secondary jet nozzle constructed and arranged to eject said secondary fluid parallel to and spaced from the line of ejection of said working fluid. 13. A radiation source according to  claim 12 , wherein said secondary jet nozzle encloses said primary jet nozzle. claim 12 14. A radiation source according to  claim 13 , wherein the primary and secondary jet nozzles are co-axial. claim 13 15. A radiation source according to  claim 12 , wherein the secondary fluid comprises at least one gas selected from the group comprising helium, neon, argon, krypton, methane, silane and hydrogen. claim 12 16. A radiation source according to  claim 1 , wherein said primary jet nozzle is a pulsed jet nozzle. claim 1 17. A radiation source according to  claim 1 , wherein said primary jet nozzle is a super-sonic jet nozzle. claim 1 18. A radiation source according to  claim 1  wherein said extreme ultraviolet radiation comprises radiation having a wavelength in the range of from 8 to 20 nm. claim 1 19. A lithographic projection apparatus for imaging of a mask pattern in a mask onto a substrate, said apparatus comprising: a radiation source constructed and arranged to generate extreme ultraviolet radiation;  an illumination system constructed and arranged to receive said extreme ultraviolet radiation and to supply a projection beam of said extreme ultraviolet radiation;  patterning means constructed and arranged to pattern the projection beam of radiation according to a desired pattern;  a substrate table constructed to hold a substrate; and  a projection system constructed and arranged to image the patterned beam onto target portions of the substrate,  wherein the radiation source is a radiation source according to  claim 1 .  claim 1 20. A radiation source according to  claim 1  wherein said extreme ultraviolet radiation comprises radiation having a wavelength in the range of from 9 to 16 nm. claim 1 21. A method for producing extreme ultraviolet electromagnetic radiation, comprising: compressing a first plasma state into a pinch volume; and  injecting a jet of working fluid into said pinch volume so as to bring said working fluid into a high-temperature plasma state to emit extreme ultraviolet electromagnetic radiation. 22. A device manufacturing comprising: generating a plasma radiation by:  compressing a first plasma state into a pinch volume; and  injecting a jet of working fluid into said pinch volume so as to bring said working fluid into a high-temperature plasma state to emit extreme ultraviolet electromagnetic radiation;  providing a projection beam of said plasma radiation;  providing a substrate that is at least partially covered by a layer of radiation-sensitive material to said substrate table;  patterning a projection beam from the radiation source in its cross-section according to a desired pattern; and  imaging the patterned beam onto said target portions of said substrate. 23. A device manufactured in accordance with the method of  claim 22 . claim 22