ARRANGEMENT FOR GENERATING EXTREME ULTRAVIOLET RADIATION FROM PLASMA GENERATED BY ENERGY BEAM WITH HIGH CONVERSION EFFICIENCY AND MINIMUM CONTAMINATION
PROBLEM TO BE SOLVED: To find a novel possibility for generating EUV radiation by means of a plasma (5) induced by an energy beam that permits a more efficient conversion of an energy beam (4) into EUV radiation in a wavelength region near to 13.5 nm, and ensures a long lifetime of optical component...
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| Main Authors | , |
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| Format | Patent |
| Language | English |
| Published |
01.11.2007
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| Subjects | |
| Online Access | Get full text |
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| Abstract | PROBLEM TO BE SOLVED: To find a novel possibility for generating EUV radiation by means of a plasma (5) induced by an energy beam that permits a more efficient conversion of an energy beam (4) into EUV radiation in a wavelength region near to 13.5 nm, and ensures a long lifetime of optical components and an injection unit (13). SOLUTION: When a mixture of particles (14) with a carrier gas (15) is used, a target feed device (1) has a gas liquefaction chamber (12). At that time, a target material is supplied to the injection unit (13) as a mixture (16) of solid metal particles (14) in a liquefied carrier gas (17), a droplet generator (131) is provided for generating a predetermined droplet size and series (2) of droplets, and means (132; 135, 136, 137, 138; 31, 32) that are controllable in a frequency-dependent manner and which are triggered by a pulse frequency of the energy beam (4) are connected to the injection unit (13) for generating series (23) of droplets. COPYRIGHT: (C)2008,JPO&INPIT |
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| AbstractList | PROBLEM TO BE SOLVED: To find a novel possibility for generating EUV radiation by means of a plasma (5) induced by an energy beam that permits a more efficient conversion of an energy beam (4) into EUV radiation in a wavelength region near to 13.5 nm, and ensures a long lifetime of optical components and an injection unit (13). SOLUTION: When a mixture of particles (14) with a carrier gas (15) is used, a target feed device (1) has a gas liquefaction chamber (12). At that time, a target material is supplied to the injection unit (13) as a mixture (16) of solid metal particles (14) in a liquefied carrier gas (17), a droplet generator (131) is provided for generating a predetermined droplet size and series (2) of droplets, and means (132; 135, 136, 137, 138; 31, 32) that are controllable in a frequency-dependent manner and which are triggered by a pulse frequency of the energy beam (4) are connected to the injection unit (13) for generating series (23) of droplets. COPYRIGHT: (C)2008,JPO&INPIT |
| Author | KLOEPFEL DIETHARD GAEBEL KAI |
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| Snippet | PROBLEM TO BE SOLVED: To find a novel possibility for generating EUV radiation by means of a plasma (5) induced by an energy beam that permits a more efficient... |
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| SubjectTerms | BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR ELECTRICITY GAMMA RAY OR X-RAY MICROSCOPES IRRADIATION DEVICES NUCLEAR ENGINEERING NUCLEAR PHYSICS PHYSICS SEMICONDUCTOR DEVICES TECHNIQUES FOR HANDLING PARTICLES OR IONISING RADIATION NOTOTHERWISE PROVIDED FOR X-RAY TECHNIQUE |
| Title | ARRANGEMENT FOR GENERATING EXTREME ULTRAVIOLET RADIATION FROM PLASMA GENERATED BY ENERGY BEAM WITH HIGH CONVERSION EFFICIENCY AND MINIMUM CONTAMINATION |
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