Patents by Inventor David LaForge
David LaForge has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240103387Abstract: Disclosed is a source for and method of generating extreme ultraviolet radiation in which spitting of molten target material is hindered through depletion of the number of hydrogen radicals available to enter deposits of molten target material and create hydrogen bubbles therein by introducing an active gas that reacts with the hydrogen radicals.Type: ApplicationFiled: December 5, 2023Publication date: March 28, 2024Inventors: Yue Ma, Dzmitry Labetski, Andrew David LaForge
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Publication number: 20240085796Abstract: An extreme ultraviolet radiation (EUV) source, including: a vessel having an inner vessel wall and an intermediate focus (IF) region; an EUV collector disposed inside the vessel, the EUV collector including a reflective surface configured to reflect EUV radiation toward the intermediate focus region, the reflective surface configured to directionally face the IF region of the vessel; a showerhead disposed along at least a portion of the inner vessel wall, the showerhead including a plurality of nozzles configured to introduce gas into the vessel; and one or more exhausts configured to remove gas introduced into the vessel, the one or more exhausts being oriented along at least a portion of the inner vessel wall so that the gas is caused to flow away from the EUV collector.Type: ApplicationFiled: October 16, 2023Publication date: March 14, 2024Applicant: ASML NETHERLANDS B.V.Inventors: Dzmitry LABETSKI, Christianus Wilhelmus Johannes BERENDSEN, Rui Miguel DUARTE RODRIGUES NUNES, Alexander Igorevich ERSHOV, Kornelis Frits FEENSTRA, Igor Vladimirovich FOMENKOV, Klaus Martin HUMMLER, Arun JOHNKADAKSHAM, Matthias KRAUSHAAR, Andrew David LAFORGE, Marc Guy LANGLOIS, Maksim LOGINOV, Yue MA, Seyedmohammad MOJAB, Kerim NADIR, Alexander SHATALOV, John Tom STEWART, Henricus Gerardus TEGENBOSCH, Chunguang XIA
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Patent number: 11874608Abstract: Disclosed is a source for and method of generating extreme ultraviolet radiation in which spitting of molten target material is hindered through depletion of the number of hydrogen radicals available to enter deposits of molten target material and create hydrogen bubbles therein by introducing an active gas that reacts with the hydrogen radicals.Type: GrantFiled: October 21, 2019Date of Patent: January 16, 2024Assignee: ASML Netherlands B.V.Inventors: Yue Ma, Dzmitry Labetski, Andrew David LaForge
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Patent number: 11846887Abstract: Degradation of the reflectivity of one or more reflective optical elements in a system for generating EUV radiation is reduced by the controlled introduction of a gas into a vacuum chamber containing the optical element. The gas may be added to the flow of another gas such as hydrogen or alternated with the introduction of hydrogen radicals.Type: GrantFiled: April 7, 2022Date of Patent: December 19, 2023Assignee: ASML Netherlands B.V.Inventors: Yue Ma, Antonius Theodorus Wilhelmus Kempen, Klaus Martin Hummler, Johannes Hubertus Josephina Moors, Jeroen Hubert Rommers, Hubertus Johannes Van De Wiel, Andrew David Laforge, Fernando Brizuela, Rob Carlo Wieggers, Umesh Prasad Gomes, Elena Nedanovska, Celal Korkmaz, Alexander Downn Kim, Rui Miguel Duarte Rodrigues Nunes, Hendrikus Alphonsus Ludovicus Van Dijck, William Peter Van Drent, Peter Gerardus Jonkers, Qiushi Zhu, Parham Yaghoobi, Jan Steven Christiaan Westerlaken, Martinus Hendrikus Antonius Leenders, Alexander Igorevich Ershov, Igor Vladimirovich Fomenkov, Fei Liu, Johannes Henricus Wilhelmus Jacobs, Alexey Sergeevich Kuznetsov
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Patent number: 11822252Abstract: An extreme ultraviolet radiation (EUV) source, including: a vessel having an inner vessel wall and an intermediate focus (IF) region; an EUV collector disposed inside the vessel, the EUV collector including a reflective surface configured to reflect EUV radiation toward the intermediate focus region, the reflective surface configured to directionally face the IF region of the vessel; a showerhead disposed along at least a portion of the inner vessel wall, the showerhead including a plurality of nozzles configured to introduce gas into the vessel; and one or more exhausts configured to remove gas introduced into the vessel, the one or more exhausts being oriented along at least a portion of the inner vessel wall so that the gas is caused to flow away from the EUV collector.Type: GrantFiled: January 22, 2021Date of Patent: November 21, 2023Assignee: ASML NETHERLANDS B.V.Inventors: Dzmitry Labetski, Christianus Wilhelmus Johannes Berendsen, Rui Miguel Duarte Rodreigues Nunes, Alexander Igorevich Ershov, Kornelis Frits Feenstra, Igor Vladimirovich Fomenkov, Klaus Martin Hummler, Arun Johnkadaksham, Matthias Kraushaar, Andrew David Laforge, Marc Guy Langlois, Maksim Loginov, Yue Ma, Seyedmohammad Mojab, Kerim Nadir, Alexander Shatalov, John Tom Stewart, Henricus Gerardus Tegenbosch, Chunguang Xia
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Publication number: 20220291591Abstract: Degradation of the reflectivity of one or more reflective optical elements in a system for generating EUV radiation is reduced by the controlled introduction of a gas into a vacuum chamber containing the optical element. The gas may be added to the flow of another gas such as hydrogen or alternated with the introduction of hydrogen radicals.Type: ApplicationFiled: April 7, 2022Publication date: September 15, 2022Inventors: Yue Ma, Antonius Theodorus Wilhelmus Kempen, Klaus Martin Hummler, Johannes Hubertus Josephina Moors, Jeroen Hubert Rommers, Hubertus Johannes Van De Wiel, Andrew David Laforge, Fernando Brizuela, Rob Carlo Wieggers, Umesh Prasad Gomes, Elena Nedanovska, Celal Korkmaz, Alexander Downn Kim, Rui Miguel Duarte Rodrigues Nunes, Hendrikus Alphonsus Ludovicus Van Dijck, William Peter Van Drent, Peter Gerardus Jonkers, Qiushi Zhu, Parham Yaghoobi, Jan Steven Christiaan Westerlaken, Martinus Hendrikus Antonius Leenders, Alexander Igorevich Ershov, Igor Vladimirovich Fomenkov, Fei Liu, Johannes Henricus Wilhelmus Jacobs, Alexey Sergeevich Kuznetsov
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Publication number: 20220260756Abstract: Provided is an optical element for a lithographic apparatus. The optical element includes a capping layer that includes oxygen vacancies therein. The oxygen vacancies prevent attack of the capping layer by preventing hydrogen and other species from penetrating the capping layer and underlying layers. The capping layer provides a low hydrogen recombination rate enabling hydrogen to clean the surface of the optical element. The capping layer may include an alloyed metal, a mixed metal oxide or a doped metal oxide and it may be a ruthenium capping layer that includes one or more dopants therein.Type: ApplicationFiled: June 26, 2020Publication date: August 18, 2022Inventors: Yue Ma, Marcus Adrianus Van De Kerkhof, Qiushi Zhu, Klaus Martin Hummler, Peter Matthew Mayer, Kay Hoffmann, Andrew David LaForge, Igor Vladimirovich Fomenkov, Daniel John William Brown
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Publication number: 20220179328Abstract: In some general aspects, a surface of a structure within a chamber of an extreme ultraviolet (EUV) light source is cleaned using a method. The method includes generating a plasma state of a material that is present at a location adjacent to a non-electrically conductive body that is within the chamber. The generation of the plasma state of the material includes electromagnetically inducing an electric current at the location adjacent the non-electrically conductive body to thereby transform the material that is adjacent the non-electrically conductive body from a first state into the plasma state. The plasma state of the material includes plasma particles, at least some of which are free radicals of the material. The method also includes enabling the plasma particles to pass over the structure surface to remove debris from the structure surface without removing the structure from the chamber of the EUV light source.Type: ApplicationFiled: February 25, 2022Publication date: June 9, 2022Inventors: Chunguang Xia, Jonghoon Baek, John Tom Stewart, IV, Andrew David LaForge, Deniz Van Heijnsbergen, David Robert Evans, Nina Vladimirovna Dziomkina, Yue Ma
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Patent number: 11347154Abstract: In some general aspects, a surface of a structure within a chamber of an extreme ultraviolet (EUV) light source is cleaned using a method. The method includes generating a plasma state of a material that is present at a location adjacent to a non-electrically conductive body that is within the chamber. The generation of the plasma state of the material includes electromagnetically inducing an electric current at the location adjacent the non-electrically conductive body to thereby transform the material that is adjacent the non-electrically conductive body from a first state into the plasma state. The plasma state of the material includes plasma particles, at least some of which are free radicals of the material. The method also includes enabling the plasma particles to pass over the structure surface to remove debris from the structure surface without removing the structure from the chamber of the EUV light source.Type: GrantFiled: February 12, 2019Date of Patent: May 31, 2022Assignee: ASML Netherlands B.V.Inventors: Chunguang Xia, Jonghoon Baek, John Tom Stewart, IV, Andrew David LaForge, Deniz Van Heijnsbergen, David Robert Evans, Nina Vladimirovna Dziomkina, Yue Ma
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Patent number: 11340532Abstract: Degradation of the reflectivity of one or more reflective optical elements in a system (SO) for generating EUV radiation is reduced by the controlled introduction of a gas into a vacuum chamber (26) containing the optical element. The gas may be added to the flow of another gas such as hydrogen or alternated with the introduction of hydrogen radicals.Type: GrantFiled: February 28, 2019Date of Patent: May 24, 2022Assignee: ASML Netherlands B.V.Inventors: Yue Ma, Antonius Theodorus Wilhelmus Kempen, Klaus Martin Hummler, Johannes Hubertus Josephina Moors, Jeroen Hubert Rommers, Hubertus Johannes Van De Wiel, Andrew David Laforge, Fernando Brizuela, Rob Carlo Wieggers, Umesh Prasad Gomes, Elena Nedanovska, Celal Korkmaz, Alexander Downn Kim, Rui Miguel Duarte Rodrigues Nunes, Hendrikus Alphonsus Ludovicus Van Dijck, William Peter Van Drent, Peter Gerardus Jonkers, Qiushi Zhu, Parham Yaghoobi, Jan Steven Christiaan Westerlaken, Martinus Hendrikus Antonius Leenders, Alexander Igorevich Ershov, Igor Vladimirovich Fomenkov, Fei Liu, Johannes Henricus Wilhelmus Jacobs, Alexey Sergeevich Kuznetsov
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Publication number: 20210325791Abstract: Disclosed is a source for and method of generating extreme ultraviolet radiation in which spitting of molten target material is hindered through depletion of the number of hydrogen radicals available to enter deposits of molten target material and create hydrogen bubbles therein by introducing an active gas that reacts with the hydrogen radicals.Type: ApplicationFiled: October 21, 2019Publication date: October 21, 2021Inventors: Yue Ma, Dzmitry Labetski, Andrew David LaForge
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Publication number: 20210141311Abstract: An extreme ultraviolet radiation (EUV) source, including: a vessel having an inner vessel wall and an intermediate focus (IF) region; an EUV collector disposed inside the vessel, the EUV collector including a reflective surface configured to reflect EUV radiation toward the intermediate focus region, the reflective surface configured to directionally face the IF region of the vessel; a showerhead disposed along at least a portion of the inner vessel wall, the showerhead including a plurality of nozzles configured to introduce gas into the vessel; and one or more exhausts configured to remove gas introduced into the vessel, the one or more exhausts being oriented along at least a portion of the inner vessel wall so that the gas is caused to flow away from the EUV collector.Type: ApplicationFiled: January 22, 2021Publication date: May 13, 2021Inventors: Dzmitry LABETSKI, Christianus Wilhelmus Johannes BERENDSEN, Rui Miguel DUARTE RODRIGUES NUNES, Alexander Igorevich ERSHOV, Kornelis Frits FEENSTRA, Igor Vladimirovich FOMENKOV, Klaus Martin HUMMLER, Arun JOHNKADAKSHAM, Matthias KRAUSHAAR, Andrew David LAFORGE, Marc Guy LANGLOIS, Maksim LOGINOV, Yue MA, Seyedmohammad MOJAB, Kerim NADIR, Alexander SHATALOV, John Tom STEWART, Henricus Gerardus TEGENBOSCH, Chunguang XIA
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Publication number: 20210109452Abstract: Degradation of the reflectivity of one or more reflective optical elements in a system (SO) for generating EUV radiation is reduced by the controlled introduction of a gas into a vacuum chamber (26) containing the optical element. The gas may be added to the flow of another gas such as hydrogen or alternated with the introduction of hydrogen radicals.Type: ApplicationFiled: February 28, 2019Publication date: April 15, 2021Inventors: Yue Ma, Antonius Theodorus Wilhelmus Kempen, Klaus Martin Hummler, Johannes Hubertus Josephina Moors, Jeroen Hubert Rommers, Hubertus Johannes Van De Wiel, Andrew David Laforge, Fernando Brizuela, Rob Carlo Wieggers, Umesh Prasad Gomes, Elena Nedanovska, Celal Korkmaz, Alexander Downn Kim, Rui Miguel Duarte Rodrigues Nunes, Hendrikus Alphonsus Ludovicus Van Dijck, William Peter Van Drent, Peter Gerardus Jonkers, Qiushi Zhu, Parham Yaghoobi, Jan Steven Christiaan Westerlaken, Martinus Hendrikus Antonius Leenders, Alexander Igorevich Ershov, Igor Vladimirovich Fomenkov, Fei Liu, Johannes Henricus Wilhelmus Jacobs, Alexey Sergeevich Kuznetsov
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Patent number: 10955749Abstract: An extreme ultraviolet radiation (EUV) source, including: a vessel having an inner vessel wall and an intermediate focus (IF) region; an EUV collector disposed inside the vessel, the EUV collector including a reflective surface configured to reflect EUV radiation toward the intermediate focus region, the reflective surface configured to directionally face the IF region of the vessel; a showerhead disposed along at least a portion of the inner vessel wall, the showerhead including a plurality of nozzles configured to introduce gas into the vessel; and one or more exhausts configured to remove gas introduced into the vessel, the one or more exhausts being oriented along at least a portion of the inner vessel wall so that the gas is caused to flow away from the EUV collector.Type: GrantFiled: January 5, 2018Date of Patent: March 23, 2021Assignee: ASML Netherlands B.V.Inventors: Dzmitry Labetski, Christianus Wilhelmus Johannes Berendsen, Rui Miguel Duarte Rodriges Nunes, Alexander Igorevich Ershov, Kornelis Frits Feenstra, Igor Vladimirovich Fomenkov, Klaus Martin Hummler, Arun Johnkadaksham, Matthias Kraushaar, Andrew David Laforge, Marc Guy Langlois, Maksim Loginov, Yue Ma, Seyedmohammad Mojab, Kerim Nadir, Alexander Shatalov, John Tom Stewart, IV, Henricus Gerardus Tegenbosch, Chunguang Xia
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Publication number: 20210063899Abstract: In some general aspects, a surface of a structure within a chamber of an extreme ultraviolet (EUV) light source is cleaned using a method. The method includes generating a plasma state of a material that is present at a location adjacent to a non-electrically conductive body that is within the chamber. The generation of the plasma state of the material includes electromagnetically inducing an electric current at the location adjacent the non-electrically conductive body to thereby transform the material that is adjacent the non-electrically conductive body from a first state into the plasma state. The plasma state of the material includes plasma particles, at least some of which are free radicals of the material. The method also includes enabling the plasma particles to pass over the structure surface to remove debris from the structure surface without removing the structure from the chamber of the EUV light source.Type: ApplicationFiled: February 12, 2019Publication date: March 4, 2021Inventors: Chunguang Xia, Jonghoon Baek, John Tom Stewart, IV, Andrew David LaForge, Deniz Van Heijnsbergen, David Robert Evans, Nina Vladimirovna Dziomkina, Yue MA
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Patent number: 10904993Abstract: A first target is provided to an interior of a vacuum chamber, a first light beam is directed toward the first target to form a first plasma from target material of the first target, the first plasma being associated with a directional flux of particles and radiation emitted from the first target along a first emission direction, the first emission direction being determined by a position of the first target; a second target is provided to the interior of the vacuum chamber; and a second light beam is directed toward the second target to form a second plasma from target material of the second target, the second plasma being associated with a directional flux of particles and radiation emitted from the second target along a second emission direction, the second emission direction being determined by a position of the second target, the first and second emission directions being different.Type: GrantFiled: May 21, 2019Date of Patent: January 26, 2021Assignee: ASML Netherlands B.V.Inventors: Robert Jay Rafac, John Tom Stewart, Andrew David LaForge
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Publication number: 20200089124Abstract: An extreme ultraviolet radiation (EUV) source, including: a vessel having an inner vessel wall and an intermediate focus (IF) region; an EUV collector disposed inside the vessel, the EUV collector including a reflective surface configured to reflect EUV radiation toward the intermediate focus region, the reflective surface configured to directionally face the IF region of the vessel; a showerhead disposed along at least a portion of the inner vessel wall, the showerhead including a plurality of nozzles configured to introduce gas into the vessel; and one or more exhausts configured to remove gas introduced into the vessel, the one or more exhausts being oriented along at least a portion of the inner vessel wall so that the gas is caused to flow away from the EUV collector.Type: ApplicationFiled: January 5, 2018Publication date: March 19, 2020Applicant: ASML NETHERLANDS B.V.Inventors: Dzmitry LABETSKI, Christianus Wilhelmus Johanne BERENDSEN, Rui Miguel DUARTE RODRIGES NUNES, Alexander Igorevich ERSHOV, Kornelis Frits FEENSTRA, Igor Vladimirovich FOMENKOV, Klaus Martin HUMMLER, Arun JOHNKADAKSHAM, Matthias KRAUSHAAR, Andrew David LAFORGE, Marc Guy LANGLOIS, Maksim LOGINOV, Yue MA, Seyedmohammad MOJAB, Kerim NADIR, Alexander SHATALOV, John Tom STEWART (IV), Henricus Gerardus TEGENBOSCH, Chunguang XIA
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Publication number: 20190274210Abstract: A first target is provided to an interior of a vacuum chamber, a first light beam is directed toward the first target to form a first plasma from target material of the first target, the first plasma being associated with a directional flux of particles and radiation emitted from the first target along a first emission direction, the first emission direction being determined by a position of the first target; a second target is provided to the interior of the vacuum chamber; and a second light beam is directed toward the second target to form a second plasma from target material of the second target, the second plasma being associated with a directional flux of particles and radiation emitted from the second target along a second emission direction, the second emission direction being determined by a position of the second target, the first and second emission directions being different.Type: ApplicationFiled: May 21, 2019Publication date: September 5, 2019Inventors: Robert Jay Rafac, John Tom Stewart, Andrew David LaForge
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Patent number: 10349509Abstract: A first target is provided to an interior of a vacuum chamber, a first light beam is directed toward the first target to form a first plasma from target material of the first target, the first plasma being associated with a directional flux of particles and radiation emitted from the first target along a first emission direction, the first emission direction being determined by a position of the first target; a second target is provided to the interior of the vacuum chamber; and a second light beam is directed toward the second target to form a second plasma from target material of the second target, the second plasma being associated with a directional flux of particles and radiation emitted from the second target along a second emission direction, the second emission direction being determined by a position of the second target, the first and second emission directions being different.Type: GrantFiled: August 7, 2018Date of Patent: July 9, 2019Assignee: ASML Netherlands B.V.Inventors: Robert Jay Rafac, John Tom Stewart, Andrew David LaForge
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Publication number: 20180343730Abstract: A first target is provided to an interior of a vacuum chamber, a first light beam is directed toward the first target to form a first plasma from target material of the first target, the first plasma being associated with a directional flux of particles and radiation emitted from the first target along a first emission direction, the first emission direction being determined by a position of the first target; a second target is provided to the interior of the vacuum chamber; and a second light beam is directed toward the second target to form a second plasma from target material of the second target, the second plasma being associated with a directional flux of particles and radiation emitted from the second target along a second emission direction, the second emission direction being determined by a position of the second target, the first and second emission directions being different.Type: ApplicationFiled: August 7, 2018Publication date: November 29, 2018Inventors: Robert Jay Rafac, John Tom Stewart, Andrew David LaForge