Patent Number: 
Section: claims

1. An extreme ultra violet light source apparatus for generating extreme ultra violet light by applying a laser beam to a target material to turn the target material into plasma, said apparatus comprising:an extreme ultra violet light generating chamber in which extreme ultra violet light is generated;a target material supply unit for injecting a target material into said extreme ultra violet light generating chamber when the extreme ultra violet light is generated;a driver laser for emitting a laser beam;a window provided to said extreme ultra violet light generating chamber, for passing the laser beam into said extreme ultra violet light generating chamber;laser beam focusing optics including at least one optical element, said laser beam focusing optics focusing the laser beam emitted from said driver laser onto a trajectory of the target material injected into said extreme ultra violet light generating chamber to generate plasma;extreme ultra violet light collecting optics for collecting and outputting extreme ultra violet light radiated from said plasma;a temperature sensor for detecting a temperature of said window; anda processing unit for determining deterioration of said window based on the temperature of said window detected by said temperature sensor when extreme ultra violet light is generated. 2. The extreme ultra violet light source apparatus according to claim 1, wherein said processing unit outputs a control signal for stopping emission of the laser beam to said driver laser, when determining that said window is deteriorated. 3. The extreme ultra violet light source apparatus according to claim 1, further comprising:a laser beam detector provided outside said extreme ultra violet light generating chamber, for detecting intensity of the laser beam, which has been dispersed without being applied to the target material after being focused by said laser beam focusing optics and output from said extreme ultra violet light generating chamber, when extreme ultra violet light is not generated,wherein said processing unit determines deterioration of said window and/or said at least one optical element based on the intensity of the laser beam detected by said laser beam detector when extreme ultra violet light is not generated. 4. The extreme ultra violet light source apparatus according to claim 3, wherein said processing unit outputs a control signal for stopping emission of the laser beam to said driver laser when determining that said window is deteriorated. 5. The extreme ultra violet light source apparatus according to claim 3, further comprising:a shielding means for shielding materials and electromagnetic waves generated in said extreme ultra violet light generating chamber to protect said laser beam detector when extreme ultra violet light is generated. 6. The extreme ultra violet light source apparatus according to claim 1, further comprising:laser beam re-focusing optics provided outside said extreme ultra violet light generating chamber, for focusing again the laser beam, which has been dispersed without being applied to the target material after being focused by said laser beam focusing optics and output from said extreme ultra violet light generating chamber, when extreme ultra violet light is not generated; andan area sensor for detecting an image of the laser beam focused by the laser beam re-focusing optics,wherein said processing unit determines deterioration and/or distortion of said window and/or said at least one optical element, and/or determines whether a focus of the laser beam focused by said laser beam focusing optics is deviated from a position where the plasma is to be generated, based on the image of the laser beam detected by said area sensor when extreme ultra violet light is not generated. 7. The extreme ultra violet light source apparatus according to claim 6, further comprising:a visible fluorescent screen for converting the laser beam focused by the laser beam re-focusing optics to visible light; anda visible light focusing system for focusing the visible light converted by said visible fluorescent screen onto a light-receiving surface of said area sensor. 8. The extreme ultra violet light source apparatus according to claim 6, further comprising:a shielding means for shielding materials and electromagnetic waves generated in said extreme ultra violet light generating chamber to protect said area sensor when extreme ultra violet light is generated. 9. An extreme ultra violet light source apparatus for generating extreme ultra violet light by applying a laser beam to a target material to turn the target material into plasma, said apparatus comprising:an extreme ultra violet light generating chamber in which extreme ultra violet light is generated;a target material supply unit for injecting a target material into said extreme ultra violet light generating chamber when extreme ultra violet light is generated;a driver laser for emitting a laser beam;a window provided to said extreme ultra violet light generating chamber, for passing the laser beam into said extreme ultra violet light generating chamber;laser beam focusing optics including an optical element provided in said extreme ultra violet light generating chamber, said laser beam focusing optics focusing the laser beam emitted from said driver laser onto a trajectory of the target material injected into said extreme ultra violet light generating chamber to generate plasma;extreme ultra violet light collecting optics for collecting and outputting extreme ultra violet light radiated from said plasma;a plurality of temperature sensors, each provided to respective one of said window and said optical element, for detecting temperatures thereof; anda processing unit for determining deterioration of said window and said optical element based on the temperatures of said window and said optical element detected by said plurality of temperature sensors when extreme ultra violet light is generated. 10. The extreme ultra violet light source apparatus according to claim 9, wherein said driver laser includes a pre-pulse laser and a main pulse laser, and said window and said laser beam focusing optics are provided for each of said pre-pulse laser and said main pulse laser. 11. The extreme ultra violet light source apparatus according to claim 9, wherein said processing unit outputs a control signal for stopping emission of the laser beam to said driver laser when determining that said window is deteriorated. 12. The extreme ultra violet light source apparatus according to claim 9, further comprising:a first energy detector for detecting energy of the laser beam, which has been dispersed without being applied to the target material after being focused by said laser beam focusing optics, when extreme ultra violet light is not generated,wherein said processing unit determines deterioration of said window and said optical element based on the energy of the laser beam detected by said first energy detector when extreme ultra violet light is not generated. 13. The extreme ultra violet light source apparatus according to claim 12, further comprising:a second energy detector provided outside said extreme ultra violet light generating chamber, for detecting energy of the laser beam before passing through said window,wherein said processing unit determines deterioration of said window and said optical element based on the energy of the laser beam detected by said first energy detector and the energy of the laser beam detected by said second energy detector when extreme ultra violet light is not generated. 14. The extreme ultra violet light source apparatus according to claim 12, wherein said first energy detector is provided outside said extreme ultra violet light generating chamber, and a concave mirror for guiding the laser beam, which has been dispersed without being applied to the target material, to said first energy detector is provided inside said extreme ultra violet light generating chamber. 15. The extreme ultra violet light source apparatus according to claim 14, further comprising:a protection housing provided in said extreme ultra violet light generating chamber,wherein said concave mirror is stored capable of being taken out in said protection housing, and is inserted into an optical path of the laser beam at measurement of said first energy detector. 16. The extreme ultra violet light source apparatus according to claim 12, wherein the target material supply unit does not inject the target material while said driver laser emits the laser beam, when said extreme ultra violet light is not generated. 17. The extreme ultra violet light source apparatus according to claim 12, wherein timing of injecting the target material controlled by the target material supply unit and timing of emitting the laser beam controlled by said driver laser are adjusted so as not to apply the laser beam to the target material, when said extreme ultra violet light is not generated. 18. The extreme ultra violet light source apparatus according to claim 12, wherein the trajectory of the target material controlled by the target material supply unit and an optical path of the laser beam controlled by said driver laser are adjusted so as not to apply the laser beam to the target material, when said extreme ultra violet light is not generated. 19. The extreme ultra violet light source apparatus according to claim 9, further comprising:a shielding means for shielding materials and electromagnetic waves generated in said extreme ultra violet light generating chamber to protect said window and said optical element provided in said extreme ultra violet light generating chamber when extreme ultra violet light is generated. 20. An extreme ultra violet light source apparatus for generating extreme ultra violet light by applying a laser beam to a target material to turn the target material into plasma, said apparatus comprising:an extreme ultra violet light generating chamber in which extreme ultra violet light is generated;a target material supply unit for injecting a target material into said extreme ultra violet light generating chamber when extreme ultra violet light is generated;a driver laser for emitting a laser beam;a window provided to said extreme ultra violet light generating chamber, for passing the laser beam into said extreme ultra violet light generating chamber;laser beam focusing optics including an optical element provided in said extreme ultra violet light generating chamber, said laser beam focusing optics focusing the laser beam emitted from said driver laser onto a trajectory of the target material injected into said extreme ultra violet light generating chamber to generate plasma;extreme ultra violet light collecting optics for collecting and outputting extreme ultra violet light radiated from said plasma;a cooling channel for supplying cooling water to said window and/or said optical element;a temperature sensor provided at a cooling water back-flow position of said cooling channel, for detecting a temperature of back-flow cooling water; anda processing unit for obtaining an amount of waste heat carried by the cooling water based on the temperature detected by the temperature sensor when extreme ultra violet light is generated, and determining deterioration of said window and/or said optical element based on the amount of waste heat. 21. The extreme ultra violet light source apparatus according to claim 20, wherein said driver laser includes a pre-pulse laser and a main pulse laser, and said window and said laser beam focusing optics are provided for each of said pre-pulse laser and said main pulse laser. 22. The extreme ultra violet light source apparatus according to claim 20, wherein said processing unit outputs a control signal for stopping emission of the laser beam to said driver laser when determining that said window and/or said optical element is deteriorated. 23. The extreme ultra violet light source apparatus according to claim 20, further comprising:a first energy detector for detecting energy of the laser beam, which has been dispersed without being applied to the target material after being focused by said laser beam focusing optics, when extreme ultra violet light is not generated,wherein said processing unit determines deterioration of said window and/or said optical element based on the energy of the laser beam detected by said first energy detector when extreme ultra violet light is not generated. 24. The extreme ultra violet light source apparatus according to claim 23, further comprising:a second energy detector provided outside said extreme ultra violet light generating chamber, for detecting energy of the laser beam before passing through said window,wherein said processing unit determines deterioration of said window and/or said optical element based on the energy of the laser beam detected by said first energy detector and the energy of the laser beam detected by said second energy detector when extreme ultra violet light is not generated. 25. The extreme ultra violet light source apparatus according to claim 23, wherein said first energy detector is provided outside said extreme ultra violet light generating chamber, and a concave mirror for guiding the laser beam, which has been dispersed without being applied to the target material, to said first energy detector is provided inside said extreme ultra violet light generating chamber. 26. The extreme ultra violet light source apparatus according to claim 25, further comprising:a protection housing provided in the extreme ultra violet light generating chamber,wherein said concave mirror is stored capable of being taken out in said protection housing, and is inserted into an optical path of the laser beam at measurement of said first energy detector. 27. The extreme ultra violet light source apparatus according to claim 23, wherein the target material supply unit does not inject the target material while said driver laser emits the laser beam, when said extreme ultra violet light is not generated. 28. The extreme ultra violet light source apparatus according to claim 23, wherein timing of injecting the target material controlled by the target material supply unit and timing of emitting the laser beam controlled by said driver laser are adjusted so as not to apply the laser beam to the target material, when said extreme ultra violet light is not generated. 29. The extreme ultra violet light source apparatus according to claim 23, wherein the trajectory of the target material controlled by the target material supply unit and an optical path of the laser beam controlled by said driver laser are adjusted so as not to apply the laser beam to the target material, when said extreme ultra violet light is not generated. 30. The extreme ultra violet light source apparatus according to claim 20, further comprising:a shielding means for shielding materials and electromagnetic waves generated in said extreme ultra violet light generating chamber to protect said window and said optical element provided in said extreme ultra violet light generating chamber when extreme ultra violet light is generated.