IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
UP-0384859
(2006-03-21)
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등록번호 |
US-7728955
(2010-06-22)
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발명자
/ 주소 |
- Munnig Schmidt, Robert-Han
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출원인 / 주소 |
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대리인 / 주소 |
Sterne, Kessler, Goldstein & Fox P.L.L.C
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인용정보 |
피인용 횟수 :
0 인용 특허 :
8 |
초록
A system for controlling the radiation dose in a pulse of radiation having a relatively large dose, in which a pulsed beam of radiation is divided into a plurality of pulsed sub-beams of radiation and the radiation dose of the pulses is adjusted after the radiation beam has been divided.
대표청구항
▼
The invention claimed is: 1. A lithographic apparatus, comprising: a radiation beam divider configured to divide a pulsed beam of radiation into at least first and second pulsed sub-beams of radiation; at least one sensor, configured to determine a radiation dose of a pulse of radiation in the puls
The invention claimed is: 1. A lithographic apparatus, comprising: a radiation beam divider configured to divide a pulsed beam of radiation into at least first and second pulsed sub-beams of radiation; at least one sensor, configured to determine a radiation dose of a pulse of radiation in the pulsed beam of radiation or at least one of the pulsed first and second sub-beams of radiation; an optical delay component, configured to delay a pulse of radiation after the radiation dose of the pulse of radiation has been determined by said at least one sensor; a first modulator, configured to adjust a radiation dose of a pulse of radiation in said first pulsed sub-beam of radiation based on the radiation dose determined by the at least one sensor; a second modulator, configured to adjust a radiation dose of a pulse of radiation in said second pulsed sub-beam of radiation based on the radiation dose determined by said at least one sensor; and one or more radiation sinks, configured to absorb excess radiation directed from at least one of the first or second modulator. 2. The lithographic apparatus according to claim 1, wherein said radiation beam divider divides the pulsed beam of radiation into at least three pulsed sub-beams of radiation and the lithographic apparatus further comprises: a plurality of radiation pulse modulators, each of the plurality of radiation pulse modulators being associated with one of said pulsed sub-beams of radiation and configured to adjust the radiation dose of a pulse of radiation in the respective pulsed sub-beam of radiation based on the radiation dose of said pulse determined by said at least one sensor. 3. The lithographic apparatus according to claim 1, wherein the lithographic apparatus further comprises: another sensor, configured to determine a radiation dose within a pulse of radiation in said pulsed beam of radiation before said pulsed beam of radiation is divided by the radiation beam divider; and wherein the first and second radiation pulse modulators adjust respective ones of the radiation doses of first and second pulses of radiation in the first and second pulsed sub-beams of radiation, respectively, based on the determination by said another sensor of a radiation dose of a corresponding one of the pulse of radiation in the pulsed beam of radiation before said pulsed beam of radiation is divided into said first and second pulses of radiation by the radiation beam divider. 4. The lithographic apparatus according to claim 1, wherein the lithographic apparatus further comprises: an additional plurality of sensors, configured to determine radiation doses of the first and second pulses of radiation within respective first and second sub-beams of radiation; and wherein the first and second radiation pulse modulators adjust respective ones of the radiation doses of said first and second pulses, respectively, based on the determination by said additional plurality of sensors of the respective radiation doses of said first and second pulses of radiation. 5. The lithographic apparatus according to claim 1, wherein the optical delay component is configured to delay a pulse of radiation of said pulsed beam of radiation before said pulsed beam of radiation is divided into said first and second pulsed sub-beams of radiation by the radiation beam divider. 6. The lithographic apparatus according to claim 1, wherein the lithographic projection apparatus further comprises an additional plurality of optical delay components, the additional plurality of optical delay components configured to delay pulses of radiation in said first and second pulsed sub-beams of radiation, respectively. 7. The lithographic apparatus according to claim 1, wherein said optical delay component is configured to delay a pulse of radiation in said first pulsed sub-beam of radiation and a pulse of radiation in said second pulsed sub-beam of radiation. 8. The lithographic apparatus according to claim 1, further comprising: a first array of individually controllable elements, configured to modulate pulses of radiation in said first pulsed sub-beam of radiation; and a second array of individually controllable elements, configured to modulate pulses of radiation in said second pulsed sub-beam of radiation. 9. The lithographic apparatus according to claim 1, further comprising: at least one additional radiation beam divider, configured to divide at least one of said first and second pulsed sub-beams of radiation after a respective one of the first or second radiation pulse modulator adjusts a radiation dose of pulses of said first or said second pulsed sub-beams of radiation; and a plurality of arrays of individually controllable elements, configured such that each array of the plurality of arrays of individually controllable elements modulates pulses of radiation from one of the first and second pulsed sub-beams of radiation and the further divided pulsed sub-beams of radiation. 10. The lithographic apparatus according to claim 1, wherein at least one of said first and second radiation pulse modulators comprises: a pockels cell configured to rotate an orientation of linearly polarized radiation input into the pockels cell to an extent dependent on a control voltage applied to it; and a polarizing filter, configured to transmit radiation to an extent dependent on the orientation of the linearly polarized radiation. 11. The lithographic apparatus according to claim 10, wherein the polarizing filter is a polarizing beam splitter configured to reflect radiation linearly polarized in a first orientation and to transmit radiation linearly polarized in a second orientation, orthogonal to the first orientation; and wherein one of the radiation reflected by the polarizing beam splitter and the radiation transmitted by the polarizing beam splitter is directed to a next component in a beam path of an associated one of the first or second pulsed sub-beam of radiation. 12. The lithographic apparatus according to claim 11, wherein the one of the radiation reflected by the polarizing beam splitter and the radiation transmitted by the polarizing beam splitter not directed to the next component, is directed to the one or more radiation sinks, configured to absorb the radiation. 13. The lithographic apparatus according to claim 12, wherein said first and second radiation pulse modulators share the one or more radiation sinks. 14. The lithographic apparatus according to claim 1, wherein at least one of the first and second radiation pulse modulators is configured to adjust the radiation dose of a pulse of radiation by transmitting the pulse of radiation at substantially full intensity for a first period of time and substantially no radiation for a second period of time. 15. The lithographic apparatus according to claim 1, wherein at least one of the first and second radiation pulse modulators is configured to adjust a radiation dose of a pulse of radiation by reducing an intensity of the radiation of the pulse by a substantially constant factor for duration of said pulse. 16. The lithographic apparatus according to claim 1, wherein the adjusted dose of a pulse of radiation adjusted by said first radiation pulse modulator is substantially the same as the adjusted dose of a pulse of radiation adjusted by said second radiation pulse modulator. 17. The lithographic apparatus according to claim 1, further comprising: a dose controller configured to determine first and second predetermined radiation doses for pulses of radiation in the first and second pulsed sub-beams of radiation, respectively and to control the first and second radiation pulse modulators to adjust doses of pulses of radiation in the first and second pulsed sub-beams of radiation to said first and second predetermined radiation doses, respectively. 18. A device manufacturing method, comprising: dividing a pulsed beam of radiation into at least first and second pulsed sub-beams of radiation; determining a radiation dose of at least one pulse of radiation of said pulsed beam of radiation or at least one of said first and second pulsed sub-beams of radiation; delaying said pulse of radiation in an optical delay component after the radiation dose of the pulse of radiation has been determined; adjusting a radiation dose of a pulse of radiation in said first pulsed sub-beam of radiation based on said determined radiation dose of said at least one pulse of radiation; and adjusting a radiation dose of a pulse of radiation in said second pulsed sub-beam of radiation based on said determined radiation dose of said at least one pulse of radiation, wherein at least one of the adjusting steps comprises absorbing excess radiation in a radiation sink. 19. The device manufacturing method according to claim 18, further comprising projecting the respective adjusted radiation doses of the first and second pulsed sub-beams onto a substrate. 20. The device manufacturing method according to claim 19, wherein the substrate is one of a flat panel display and an integrated circuit device. 21. A radiation supply system, comprising: a radiation beam divider configured to divide a pulsed beam of radiation into at least first and second pulsed sub-beams of radiation; at least one sensor, configured to determine a radiation dose within a pulse of radiation in the pulsed beam of radiation or at least one of the first and second pulsed sub-beams of radiation; an optical delay component, configured to delay a pulse of radiation after the radiation dose of the pulse of radiation has been determined by the sensor; a first modulator, configured to adjust a radiation dose of a pulse of radiation in said first pulsed sub-beam of radiation based on the radiation dose of said pulse of radiation determined by said at least one sensor; a second modulator, configured to adjust the radiation dose of a pulse of radiation in said second pulsed sub-beam of radiation based on the radiation dose of said pulse of radiation determined by said at least one sensor; and one or more radiation sinks, configured to absorb excess radiation directed from at least one of the first or second modulator.
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