Patents by Inventor Yuxiang Lin
Yuxiang Lin 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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Patent number: 11994808Abstract: A system includes a radiation source, first and second phased arrays, and a detector. The first and second phased arrays include optical elements, a plurality of ports, waveguides, and phase modulators. The optical elements radiate radiation waves. The waveguides guide radiation from a port of the plurality of ports to the optical elements. Phase modulators adjust phases of the radiation waves. One or both of the first and second phased arrays form a first beam and/or a second beam of radiation directed toward a target structure based on the port coupled to the radiation source. The detector receives radiation scattered by the target structure and generates a measurement signal based on the received radiation.Type: GrantFiled: September 23, 2020Date of Patent: May 28, 2024Assignee: ASML Holding N.V.Inventors: Mohamed Swillam, Tamer Mohamed Tawfik Ahmed Elazhary, Stephen Roux, Yuxiang Lin, Justin Lloyd Kreuzer
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Patent number: 11971665Abstract: An alignment method includes directing an illumination beam with a first polarization state to form a diffracted beam with a second polarization state from an alignment target, and passing the diffracted beam through a polarization analyzer. The alignment method further includes measuring a polarization state of the diffracted beam and determining a location of the alignment target from the measured polarization state relative to its initial polarization state. The alignment target includes a plurality of diffraction gratings with a single pitch and two or more duty cycles, wherein the pitch is smaller than a wavelength of the illumination beam, and the location of the alignment target corresponds to the duty cycle of the diffraction grating.Type: GrantFiled: February 6, 2020Date of Patent: April 30, 2024Assignee: ASML Holding N.V.Inventors: Joshua Adams, Yuxiang Lin, Krishanu Shome, Gerrit Johannes Nijmeijer, Igor Matheus Petronella Aarts
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Patent number: 11966169Abstract: A system includes a radiation source, first and second phased arrays, and a detector. The first and second phased arrays include optical elements, a plurality of ports, waveguides, and phase modulators. The optical elements radiate radiation waves. The waveguides guide radiation from a port of the plurality of ports to the optical elements. Phase modulators adjust phases of the radiation waves. One or both of the first and second phased arrays form a first beam and/or a second beam of radiation directed toward a target structure based on the port coupled to the radiation source. The detector receives radiation scattered by the target structure and generates a measurement signal based on the received radiation.Type: GrantFiled: September 23, 2020Date of Patent: April 23, 2024Assignee: ASML Holding N.V.Inventors: Mohamed Swillam, Tamer Mohamed Tawfik Ahmed Elazhary, Stephen Roux, Yuxiang Lin, Justin Lloyd Kreuzer
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Publication number: 20230341785Abstract: A system includes an illumination system, an optical element, a switching element and a detector. The illumination system includes a broadband light source that generates a beam of radiation. The dispersive optical element receives the beam of radiation and generates a plurality of light beams having a narrower bandwidth than the broadband light source. The optical switch receives the plurality of light beams and transmits each one of the plurality of light beams to a respective one of a plurality of alignment sensor of a sensor array. The detector receives radiation returning from the sensor array and to generate a measurement signal based on the received radiation.Type: ApplicationFiled: June 7, 2021Publication date: October 26, 2023Applicants: ASML Netherlands B.V., ASML Holding N.V.Inventors: Simon Reinald HUISMAN, Sergey MALYK, Yuxiang LIN, Daan Maurits SLOTBOOM
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Patent number: 11789368Abstract: A system (500) includes an illumination system (502), a lens element (506), and a detector (504). The illumination system generates a beam of radiation (510) having a first spatial intensity distribution (800) at a pupil plane (528) and a second spatial intensity distribution (900) at a plane of a target (514). The first spatial intensity distribution comprises an annular intensity profile (802) or an intensity profile corresponding to three or more beams. The lens element focuses the beam onto the target. The second spatial intensity distribution is a conjugate of the first intensity distribution and has an intensity profile corresponding to a central beam (902) and one or more side lobes (904) that are substantially isolated from the central beam. The central beam has a beam diameter of approximately 20 microns or less at the target. The detector receives radiation scattered by the target and generates a measurement signal based on the received radiation.Type: GrantFiled: September 14, 2020Date of Patent: October 17, 2023Assignee: ASML Holding N.V.Inventors: Yuxiang Lin, Joshua Adams, Tamer Mohamed Tawfik Ahmed Mohamed Elazhary, Krishanu Shome
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Publication number: 20230244074Abstract: The present invention comprises a compact optical see-through head-mounted display capable of combining, a see-through image path with a virtual image path such that the opaqueness of the see-through image path can be modulated and the virtual image occludes parts of the see-through image and vice versa.Type: ApplicationFiled: April 4, 2023Publication date: August 3, 2023Applicant: Magic Leap, Inc.Inventors: Chunyu Gao, Yuxiang Lin, Hong Hua
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Patent number: 11656452Abstract: The present invention comprises a compact optical see-through head-mounted display capable of combining, a see-through image path with a virtual image path such that the opaqueness of the see-through image path can be modulated and the virtual image occludes parts of the see-through image and vice versa.Type: GrantFiled: December 18, 2020Date of Patent: May 23, 2023Assignee: Magic Leap, Inc.Inventors: Chunyu Gao, Yuxiang Lin, Hong Hua
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Patent number: 11526091Abstract: Apparatus for, and method of, measuring a parameter of an alignment mark on a substrate in which an optical system is arranged to receive at least one diffraction order from the alignment mark and the diffraction order is modulated at a pupil or a wafer conjugate plane of the optical system, a solid state optical device is arranged to receive the modulated diffraction order, and a spectrometer is arranged to receive the modulated diffraction order from the solid state optical device and to determine an intensity of one or more spectral components in the modulated diffraction order.Type: GrantFiled: March 25, 2020Date of Patent: December 13, 2022Assignee: ASML Holding N.V.Inventors: Tamer Mohamed Tawfik Ahmed Mohamed Elazhary, Justin Lloyd Kreuzer, Yuxiang Lin, Kirill Urievich Sobolev
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Publication number: 20220373895Abstract: A system (500) includes an illumination system (502), a lens element (506), and a detector (504). The illumination system generates a beam of radiation (510) having a first spatial intensity distribution (800) at a pupil plane (528) and a second spatial intensity distribution (900) at a plane of a target (514). The first spatial intensity distribution comprises an annular intensity profile (802) or an intensity profile corresponding to three or more beams. The lens element focuses the beam onto the target. The second spatial intensity distribution is a conjugate of the first intensity distribution and has an intensity profile corresponding to a central beam (902) and one or more side lobes (904) that are substantially isolated from the central beam. The central beam has a beam diameter of approximately 20 microns or less at the target. The detector receives radiation scattered by the target and generates a measurement signal based on the received radiation.Type: ApplicationFiled: September 14, 2020Publication date: November 24, 2022Applicant: ASML Holding N.V.Inventors: Yuxiang LIN, Joshua ADAMS, Tamer Mohamed Tawfik Ahmed Mohamed ELAZHARY, Krishanu SHOME
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Patent number: 11445855Abstract: An air inlet device of an air fryer, which has a heating chamber, includes an upper housing, and an upper cover disposed above and covering the upper housing. The upper cover and the upper housing cooperatively define a flow guide channel therebetween. The flow guide channel has an air inlet opening for entry of air into the air inlet device, and a chamber entry opening located inwardly of the air inlet opening for flowing of the air into the heating chamber. The flow guide channel has a curved shape from the air inlet opening to the chamber entry opening.Type: GrantFiled: June 9, 2020Date of Patent: September 20, 2022Assignee: TSANN KUEN (ZHANGZHOU) ENTERPRISE CO., LTD.Inventors: Yixin Zhan, Yongmou Zhang, Yuxiang Lin
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Publication number: 20220179331Abstract: Apparatus for, and method of, measuring a parameter of an alignment mark on a substrate in which an optical system is arranged to receive at least one diffraction order from the alignment mark and the diffraction order is modulated at a pupil or a wafer conjugate plane of the optical system, a solid state optical device is arranged to receive the modulated diffraction order, and a spectrometer is arranged to receive the modulated diffraction order from the solid state optical device and to determine an intensity of one or more spectral components in the modulated diffraction order.Type: ApplicationFiled: March 25, 2020Publication date: June 9, 2022Applicant: ASML HOLDING N.V.Inventors: Tamer Mohamed Tawfik Ahmed Mohamed ELAZHARY, Justin Lloyd KREUZER, Yuxiang LIN, Kirill Urievich SOBOLEV
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Publication number: 20220137523Abstract: An alignment method includes directing an illumination beam with a first polarization state to form a diffracted beam with a second polarization state from an alignment target, and passing the diffracted beam through a polarization analyzer. The alignment method further includes measuring a polarization state of the diffracted beam and determining a location of the alignment target from the measured polarization state relative to its initial polarization state. The alignment target includes a plurality of diffraction gratings with a single pitch and two or more duty cycles, wherein the pitch is smaller than a wavelength of the illumination beam, and the location of the alignment target corresponds to the duty cycle of the diffraction grating.Type: ApplicationFiled: February 6, 2020Publication date: May 5, 2022Applicant: ASML Holding N.V.Inventors: Joshua ADAMS, Yuxiang LIN, Krishanu SHOME, Gerrit Johannes NIJMEIJER, Igor Matheus Petronella AARTS
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Publication number: 20220121129Abstract: A metrology system includes a radiation source configured to generate radiation, an optical element configured to direct the radiation toward a grating structure comprising a non-constant pitch, and a detector configured to receive radiation scattered by the grating structure and generate a measurement based on the received radiation. The metrology system is configured to generate a set of measurements corresponding to a set of locations on the grating structure along a direction of the non-constant pitch and determine a parameter of a lithographic process or a correction for the metrology system based on the set of measurements.Type: ApplicationFiled: February 11, 2020Publication date: April 21, 2022Applicant: ASML Netherlands B.V.Inventors: Yuxiang LIN, Joshua ADAMS
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Publication number: 20210373338Abstract: The present invention comprises a compact optical see-through head-mounted display capable of combining, a see-through image path with a virtual image path such that the opaqueness of the see-through image path can be modulated and the virtual image occludes parts of the see-through image and vice versa.Type: ApplicationFiled: December 18, 2020Publication date: December 2, 2021Applicant: Magic Leap, Inc.Inventors: Chunyu Gao, Yuxiang LIN, Hong HUA
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Patent number: 11175593Abstract: An alignment sensor apparatus includes an illumination system, a first optical system, a second optical system, a detector system, and a processor. The illumination system is configured to transmit an illumination beam along an illumination path. The first optical system is configured to transmit the illumination beam toward a diffraction target on a substrate. The second optical system includes a first polarizing optic configured to separate and transmit an irradiance distribution. The detector system is configured to measure a center of gravity of the diffraction target based on the irradiance distribution outputted from a first polarization branch and a second polarization branch. The processor is configured to measure a shift in the center of gravity of the diffraction target caused by an asymmetry variation in the diffraction target and determine a sensor response function of the alignment sensor apparatus based on the center of gravity shift.Type: GrantFiled: April 3, 2019Date of Patent: November 16, 2021Assignees: ASML Netherlands B.V., ASML Holding N.V.Inventors: Simon Reinald Huisman, Tamer Mohamed Tawfik Ahmed Mohamed Elazhary, Yuxiang Lin, Vu Quang Tran, Sebastianus Adrianus Goorden, Justin Lloyd Kreuzer, Christopher John Mason, Igor Matheus Petronella Aarts, Krishanu Shome, Irit Tzemah
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Publication number: 20210132509Abstract: An alignment sensor apparatus includes an illumination system, a first optical system, a second optical system, a detector system, and a processor. The illumination system is configured to transmit an illumination beam along an illumination path. The first optical system is configured to transmit the illumination beam toward a diffraction target on a substrate. The second optical system includes a first polarizing optic configured to separate and transmit an irradiance distribution. The detector system is configured to measure a center of gravity of the diffraction target based on the irradiance distribution outputted from a first polarization branch and a second polarization branch. The processor is configured to measure a shift in the center of gravity of the diffraction target caused by an asymmetry variation in the diffraction target and determine a sensor response function of the alignment sensor apparatus based on the center of gravity shift.Type: ApplicationFiled: April 3, 2019Publication date: May 6, 2021Applicants: ASML Netherlands B.V., ASML Holding N.V.Inventors: Simon Reinald HUISMAN, Tamer Mohamed Tawfik Ahmed Mohamed ELAZHARY, Yuxiang LIN, Vu Quang TRAN, Sebastianus Adrianus GOORDEN, Justin Lloyd KREUZER, Christopher John MASON, Igor Matheus Petronella AARTS, Krishanu SHOME, Irit TZEMAH
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Publication number: 20210095957Abstract: A system includes a radiation source, first and second phased arrays, and a detector. The first and second phased arrays include optical elements, a plurality of ports, waveguides, and phase modulators. The optical elements radiate radiation waves. The waveguides guide radiation from a port of the plurality of ports to the optical elements. Phase modulators adjust phases of the radiation waves. One or both of the first and second phased arrays form a first beam and/or a second beam of radiation directed toward a target structure based on the port coupled to the radiation source. The detector receives radiation scattered by the target structure and generates a measurement signal based on the received radiation.Type: ApplicationFiled: September 23, 2020Publication date: April 1, 2021Applicant: ASML Holding N.V.Inventors: Mohamed SWILLAM, Tamer Mohamed Tawfik Ahmed Mohamed Elazhary, Stephen Roux, Yuxiang Lin, Justin Lloyd Kreuzer
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Publication number: 20210059470Abstract: An air inlet device of an air fryer, which has a heating chamber, includes an upper housing, and an upper cover disposed above and covering the upper housing. The upper cover and the upper housing cooperatively define a flow guide channel therebetween. The flow guide channel has an air inlet opening for entry of air into the air inlet device, and a chamber entry opening located inwardly of the air inlet opening for flowing of the air into the heating chamber. The flow guide channel has a curved shape from the air inlet opening to the chamber entry opening.Type: ApplicationFiled: June 9, 2020Publication date: March 4, 2021Inventors: Yixin Zhan, Yongmou Zhang, Yuxiang Lin
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Patent number: 10901221Abstract: The present invention comprises a compact optical see-through head-mounted display capable of combining, a see-through image path with a virtual image path such that the opaqueness of the see-through image path can be modulated and the virtual image occludes parts of the see-through image and vice versa.Type: GrantFiled: September 2, 2019Date of Patent: January 26, 2021Assignee: Magic Leap, Inc.Inventors: Chunyu Gao, Yuxiang Lin, Hong Hua
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Publication number: 20200012109Abstract: The present invention comprises a compact optical see-through head-mounted display capable of combining, a see-through image path with a virtual image path such that the opaqueness of the see-through image path can be modulated and the virtual image occludes parts of the see-through image and vice versa.Type: ApplicationFiled: September 2, 2019Publication date: January 9, 2020Applicant: Magic Leap, Inc.Inventors: Chunyu Gao, Yuxiang LIN, Hong HUA