Using an interferometer as a high speed variable attenuator
First Claim
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1. A variable attenuator configured to adjust its level of transmission of an input beam of radiation in response to an input control signal that represents a desired level of transmission of the variable attenuator to the beam of radiation, comprising:
- first and second semi-transparent reflectors, arranged substantially mutually parallel and such that the beam of radiation successively passes through the first and second semi-transparent reflectors; and
an actuator system that is configured to control the separation of the first and second semi-transparent reflectors in response to the input control signal.
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Accused Products
Abstract
A system and method provides high speed variable attenuators. The attenuators can be used within a lithographic apparatus to control intensity of radiation in one or more correction pulses used to correct a dose of the radiation following an initial pulse of radiation.
38 Citations
36 Claims
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1. A variable attenuator configured to adjust its level of transmission of an input beam of radiation in response to an input control signal that represents a desired level of transmission of the variable attenuator to the beam of radiation, comprising:
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first and second semi-transparent reflectors, arranged substantially mutually parallel and such that the beam of radiation successively passes through the first and second semi-transparent reflectors; and an actuator system that is configured to control the separation of the first and second semi-transparent reflectors in response to the input control signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A variable attenuator configured to adjust its level of transmission to an input beam of radiation in response to an input control signal that represents a desired level of transmission of the variable attenuator to the beam of radiation, comprising:
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a radiation beam splitter that divides the beam of radiation onto first and second radiation beam paths; a radiation beam combiner that re-combines radiation from the first and second radiation beam paths, such the re-combined radiation interferes and produces an output beam of radiation; and a radiation beam pathlength controller configured to control a pathlength of the first radiation beam path in response to the input control signal in order to control the interference of the radiation from the first and second radiation beam paths. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A variable attenuator configured to adjust its level of transmission to an input beam of radiation in response to an input control signal that represents a desired level of transmission of the variable attenuator to the beam of radiation, comprising:
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first and second phase gratings; and an actuator system; wherein the first and second phase gratings are arranged substantially mutually parallel and so that the beam of radiation is initially incident on the first phase grating and then is incident on the second phase grating; wherein each of the phase gratings comprises a plurality of regions of a first type and a plurality of regions of a second type, wherein the phase gratings are constructed such that, for each phase grating, a phase shift introduced to the beam of radiation passing through the regions of the first type is a quarter of a wavelength of the beam of radiation input to the variable attenuator greater than for the regions of the second type, and wherein actuator system is configured to adjust the relative positions of the first and second phase gratings in response to the input control signal at least between a first position, in which radiation passing through regions of the first and second type of the first phase grating subsequently passes through regions of the first and second type, respectively, of the second phase grating, and a second position, in which radiation passing through regions of the first and second type of the first grating subsequently passes through regions of the second and first type, respectively, of the second phase grating. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 25)
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26. A lithographic apparatus, comprising:
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an illumination system configured to condition a pulsed beam of radiation; a variable attenuator configured such that it attenuates the intensity of at least one pulse of the pulsed beam of radiation, wherein the variable attenuator comprises one of, a) two semi-transparent reflectors, b) a beam splitter, a beam combiner, and a path length controller, or c) two phase gratings, and a control system, configured to determine a desired intensity of a pulse of radiation and to provide a control signal to the variable attenuator, corresponding to a desired level of transmission of the variable attenuator to the beam of radiation, necessary to attenuate the pulse to the desired intensity. - View Dependent Claims (27)
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28. A device manufacturing method, comprising:
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forming a variable attenuator using first and second semi-transparent reflectors that are arranged substantially mutually parallel, such that a pulsed beam of radiation successively passes through the first and second semi-transparent reflectors; controlling separation of the first and second semi-transparent reflectors in response to an input control signal, attenuating an intensity of at least one pulse of the pulsed beam of radiation using the variable attenuator, which is configured to adjust its level of transmission to an input beam of radiation in response to the input control signal, which represents a desired level of transmission of the variable attenuator to the beam of radiation; modulating a pulsed beam of radiation; and projecting the modulated beam onto a substrate. - View Dependent Claims (31, 32)
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29. A device manufacturing method, comprising:
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forming a variable attenuator using a radiation beam splitter that divides a pulsed beam of radiation into first and second radiation beam paths and a radiation beam combiner that re-combines radiation from the first and second radiation beam paths such that it interferes and produces an output beam of radiation; using a radiation beam pathlength controller to control the pathlength of the first radiation beam path in response to an input control signal in order to control the interference of the radiation from the first and second radiation beam paths; attenuating intensity of at least one pulse of the pulsed beams of radiation using the variable attenuator that is configured to adjust its level of transmission to an input beam of radiation in response to the input control signal, which represents a desired level of transmission of the variable attenuator to the beam of radiation; modulating the pulsed beam of radiation from the variable attenuator; and projecting it onto a substrate. - View Dependent Claims (33, 34)
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30. A device manufacturing method, comprising:
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forming a variable attenuator from first and second phase gratings that are arranged substantially mutually parallel, such that a pulsed beam of radiation is initially incident on the first phase grating and, having passed through the first phase grating, is incident on the second phase grating; forming a plurality of regions of a first type and a plurality of regions of a second type on each of the phase gratings; constructing the phase gratings such that, for each phase grating, a phase shift introduced to the pulsed beam of radiation passing through the regions of the first type is a quarter of the wavelength of the beam of radiation input to the variable attenuator greater than for the regions of the second type; adjusting the relative positions of the first and second phase gratings in response to an input control signal at least between a first position, in which the radiation passing through regions of the first and second type of the first phase grating subsequently passes through regions of the first and second type, respectively, of the second phase grating, and a second position, in which radiation passing through regions of the first and second type of the first grating subsequently passes through regions of the second and first type, respectively, of the second phase grating; attenuating intensity of at least one pulse of the pulsed beam of radiation using the variable attenuator configured to adjust its level of transmission to an input beam of radiation in response to the input control signal, which represents a desired level of transmission of the variable attenuator to the beam of radiation, comprising; and modulating the pulsed beam of radiation; and projecting the modulated beam onto a substrate. - View Dependent Claims (35, 36)
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Specification