Compensation for geometric effects of beam misalignments in plane mirror interferometer metrology systems
First Claim
1. A method, comprising:
- using an interferometer in an interferometry system to produce an output beam comprising a phase related to an optical path difference between a path of a first beam and a path of a second beam, wherein the first beam contacts a measurement object at a first location and the first or second beam contacts the measurement object at a second location, and wherein the first and second locations are different;
providing precalibrated information that accounts for contributions to the optical path difference caused by a deviation of the path of the first or second beam from a nominal beam path due to an imperfection of the measurement object at the first location and due to an imperfection of the measurement object at the second location; and
determining a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and the precalibrated information.
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Abstract
In one aspect, the invention features a method, including using an interferometer in an interferometry system to produce an output beam comprising a phase related to an optical path difference between a path of a first beam and a path of a second beam, wherein the first beam contacts a measurement object at a first location and the first or second beam contacts the measurement object at a second location, and wherein the first and second locations are different, providing precalibrated information that accounts for contributions to the optical path difference caused by a deviation of the path of the first or second beam from a nominal beam path due to an imperfection of the measurement object at the first location and due to an imperfection of the measurement object at the second location, and determining a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and the precalibrated information.
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Citations
51 Claims
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1. A method, comprising:
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using an interferometer in an interferometry system to produce an output beam comprising a phase related to an optical path difference between a path of a first beam and a path of a second beam, wherein the first beam contacts a measurement object at a first location and the first or second beam contacts the measurement object at a second location, and wherein the first and second locations are different; providing precalibrated information that accounts for contributions to the optical path difference caused by a deviation of the path of the first or second beam from a nominal beam path due to an imperfection of the measurement object at the first location and due to an imperfection of the measurement object at the second location; and determining a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and the precalibrated information. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 38)
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35. A method, comprising:
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using an interferometer to produce an output beam comprising a phase related to an optical path difference between a path of a first beam and a path of a second beam, wherein the first beam contacts a measurement object at a first location and the first or second beam contacts the measurement object at a second location different from the first location; providing precalibrated information that accounts for contributions to the optical path difference caused by a deviation of the path of the first beam out of a plane defined by a nominal beam path due to an imperfection of the measurement object at the first location; and determining a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and the precalibrated information. - View Dependent Claims (36, 37)
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39. A method, comprising:
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using an interferometer to produce an output beam comprising a phase related to an optical path difference between a first beam path and a second beam path, wherein the first or second beam contacts a measurement object; providing precalibrated information that accounts for contributions to the optical path difference caused by a deviation of a path of the first beam from a nominal beam path due to an imperfection of the measurement object, and accounts for contributions to the optical path difference caused by a deviation of the path of the first beam from the nominal beam path due to an imperfection in one or more optics of the interferometer different from the measurement object or in a light source used to produce the output beam; and determining a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and the precalibrated information.
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40. A method, comprising:
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using a first interferometer and a second interferometer in an interferometry system to produce a first output beam and a second output beam, respectively, wherein each output beam comprises a phase related to an optical path difference between two beam paths, at least one of which contacts a measurement object; providing precalibrated information that accounts for a misalignment of an axis of the first interferometer relative to an axis of the second interferometer; and determining a position of the measurement object with respect to at least one degree of freedom based on information derived from the first and second output beams and the precalibrated information. - View Dependent Claims (41, 42, 43)
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44. An apparatus comprising:
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an interferometer configured to produce an output beam comprising a phase related to an optical path difference between a path of a first beam and a path of a second beam, wherein the first beam contacts a measurement object at a first location and the first or second beam contacts the interferometer at a second location, and wherein the first and second locations are different; and an electronic controller coupled to the interferometer, wherein during operation the electronic controller determines a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and precalibrated information that accounts for contributions to the optical path difference caused by a deviation of at least one of the beam paths from a nominal beam path due to an imperfection of the measurement object at the first location and due to an imperfection of the measurement object at the second location. - View Dependent Claims (45, 46, 47, 48, 49)
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50. An apparatus, comprising:
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an interferometer configured to produce an output beam comprising a phase related to an optical path difference between a path of a first beam and a path of a second beam, wherein the first beam contacts a measurement object at a first location and the first or second beam contacts the measurement object at a second location, wherein the first and second locations are different; and an electronic controller coupled to the interferometer, wherein during operation the electronic controller determines a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and precalibrated information that accounts for contributions to the optical path difference caused by a deviation of the path of the first beam out of a plane defined by a nominal beam path due to an imperfection of the measurement object at the first location.
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51. An interferometry system, comprising:
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a measurement object; a first interferometer and a second interferometer, the first and second interferometers respectively being configured to produce an output beam comprising a phase related to an optical path difference between a path of a first beam and a path of a second beam, wherein the first beam contacts the measurement object at a first location; and an electronic controller coupled to the first and second interferometers, wherein during operation the electronic controller determines a position of the measurement object with respect to at least one degree of freedom based on information derived from the output beam and precalibrated information that accounts for a misalignment of an axis of the first interferometer relative to an axis of the second interferometer.
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Specification