Patents by Inventor Matthew Derstine
Matthew Derstine 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: 9941655Abstract: A system for generating high power broadband light includes multiple light-sustained plasma light sources. Each one of the light-sustained sources includes a pumping source, a gas containment structure for containing gas and configured to receive pumping illumination from the pumping source and a parabolic reflector element arranged to collect at least a portion of the broadband radiation emitted by the generated plasma and form a collimated broadband radiation output. The system also including a set of optical elements configured to combine the collimated broadband outputs from the parabolic reflector elements of the multiple light-sustained plasma light sources into an aggregated broadband beam.Type: GrantFiled: March 24, 2015Date of Patent: April 10, 2018Assignee: KLA-Tencor CorporationInventors: Anant Chimmalgi, Rahul Yadav, Anatoly Shchemelinin, Ilya Bezel, Matthew Derstine
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Patent number: 9927094Abstract: A plasma cell for use in a laser-sustained plasma light source includes a plasma bulb configured to contain a gas suitable for generating a plasma, the plasma bulb being transparent to light from a pump laser, wherein the plasma bulb is transparent to at least a portion of a collectable spectral region of illumination emitted by the plasma. The plasma bulb of the plasma cell is configured to filter short wavelength radiation, such as VUV radiation, emitted by the plasma sustained within the bulb in order to keep the short wavelength radiation from impinging on the interior surface of the bulb.Type: GrantFiled: January 15, 2013Date of Patent: March 27, 2018Assignee: KLA-Tencor CorporationInventors: Ilya Bezel, Anatoly Shchemelinin, Eugene Shifrin, Matthew Panzer, Matthew Derstine, Jincheng Wang, Anant Chimmalgi, Rajeev Patil, Rudolf Brunner
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Patent number: 9887076Abstract: A system for controlling convective flow in a light-sustained plasma includes an illumination source configured to generate illumination, a bulb-less gas containment structure, and a collector element arranged to focus illumination from the illumination source into the volume of gas in order to generate a plasma within the volume of gas contained within the bulb-less gas containment structure. Further, the plasma is generated within a concave region of the collector element, where the collector element includes an opening through the collector element for propagating a portion of a plume of the plasma from a first region of the bulb-less gas containment structure to a second region of the bulb-less gas containment structure, wherein the first region of the bulb-less gas containment structure and the second region of the bulb-less gas containment structure are at least partially separated by a surface of the collector element.Type: GrantFiled: July 11, 2016Date of Patent: February 6, 2018Assignee: KLA-Tencor CorporationInventors: Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine, Kenneth P. Gross, David W. Shortt, Wei Zhao, Anant Chimmalgi, Jincheng Wang
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Patent number: 9775226Abstract: A system for forming a light-sustained plasma capable of emitting vacuum ultraviolet light includes an illumination source configured to generate illumination, a plasma cell including a transmission element having one or more openings, one or more flanges disposed at the openings of the transmission element and configured to enclose the internal volume of the transmission element in order to contain a volume of gas within the plasma cell. The system further includes a collector element arranged to focus the illumination from the illumination source into the volume of gas to generate a plasma within the volume of gas contained within the plasma cell. Further, the plasma emits broadband radiation including at least vacuum ultraviolet radiation. In addition, the transmission element of the plasma cell is transparent to the illumination generated by the illumination source and at least the vacuum ultraviolet radiation emitted by the plasma.Type: GrantFiled: March 31, 2014Date of Patent: September 26, 2017Assignee: KLA-Tencor CorporationInventors: Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine
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Patent number: 9723703Abstract: A laser-sustained plasma light source for transverse plasma pumping includes a pump source configured to generate pumping illumination, one or more illumination optical elements and a gas containment structure configured to contain a volume of gas. The one or more illumination optical elements are configured to sustain a plasma within the volume of gas of the gas containment structure by directing pump illumination along a pump path to one or more focal spots within the volume of gas. The one or more collection optical elements are configured to collect broadband radiation emitted by the plasma along a collection path. Further, the illumination optical elements are configured to define the pump path such that pump illumination impinges the plasma along a direction transverse to a direction of propagation of the emitted broadband light of the collection path such that the pump illumination is substantially decoupled from the emitted broadband radiation.Type: GrantFiled: March 31, 2015Date of Patent: August 1, 2017Assignee: KLA-Tencor CorporationInventors: Ilya Bezel, Anatoly Shchemelinin, Richard Solarz, Sebaek Oh, Matthew Derstine
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Patent number: 9721761Abstract: An open plasma lamp includes a cavity section. A gas input and gas output of the cavity section are arranged to flow gas through the cavity section. The plasma lamp also includes a gas supply assembly fluidically coupled to the gas input of the cavity section and configured to supply gas to an internal volume of the cavity section. The plasma lamp also includes a nozzle assembly fluidically coupled to the gas output of the cavity section. The nozzle assembly and cavity section are arranged such that a volume of the gas receives pumping illumination from a pump source, where a sustained plasma emits broadband radiation. The nozzle assembly is configured to establish a convective gas flow from within the cavity section to a region external to the cavity section such that a portion of the sustained plasma is removed from the cavity section by the gas flow.Type: GrantFiled: February 15, 2016Date of Patent: August 1, 2017Assignee: KLA-Tencor CorporationInventors: Lauren Wilson, Anant Chimmalgi, Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine, Gildardo Delgado
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Patent number: 9655225Abstract: A plasma cell for controlling convection includes a transmission element configured to receive illumination from an illumination source in order to generate a plasma within a plasma generation region of the volume of gas. The transmission element of the plasma cell is at least partially transparent to at least a portion of the illumination generated by the illumination source and at least a portion of broadband radiation emitted by the plasma. The plasma cell also includes one or more gas return channels formed within the transmission element for transferring gas from a region above the plasma generation region to a region below the plasma generation region.Type: GrantFiled: November 9, 2015Date of Patent: May 16, 2017Assignee: KLA-Tencor CorporationInventors: Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine
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Patent number: 9558858Abstract: The inspection of a sample with VUV light from a laser sustained plasma includes generating pumping illumination including a first selected wavelength, or range of wavelength, containing a volume of gas suitable for plasma generation, generating broadband radiation including a second selected wavelength, or range of wavelengths, by forming a plasma within the volume of gas by focusing the pumping illumination into the volume of gas, illuminating a surface of a sample with the broadband radiation emitted from the plasma via an illumination pathway, collecting illumination from a surface of the sample, focusing the collected illumination onto a detector via a collection pathway to form an image of at least a portion of the surface of the sample and purging the illumination pathway and/or the collection pathway with a selected purge gas.Type: GrantFiled: August 13, 2014Date of Patent: January 31, 2017Assignee: KLA-Tencor CorporationInventors: David W. Shortt, Steven R. Lange, Matthew Derstine, Kenneth P. Gross, Wei Zhao, Ilya Bezel, Anatoly Shchemelinin
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Patent number: 9534848Abstract: A fluid input manifold distributes injected fluid around the body of a bulb to cool the bulb below a threshold. The injected fluid also distributes heat more evenly along the surface of the bulb to reduce thermal stress. The fluid input manifold may comprise one or more airfoils to direct a substantially laminar fluid flow along the surface of the bulb or it may comprise a plurality of fluid injection nozzles oriented to produce a substantially laminar fluid flow. An output portion may be configured to facilitate fluid flow along the surface of the bulb by allowing injected fluid to easily escape after absorbing heat from the bulb or by applying negative pressure to actively draw injected fluid along the surface of the bulb and away.Type: GrantFiled: August 26, 2013Date of Patent: January 3, 2017Assignee: KLA-Tencor CorporationInventors: Jincheng Wang, Anant Chimmalgi, Rajeev Patil, Erik Kim, Rudolf Brunner, Quang Giang, Lauren Wilson, Ken Gross, Ilya Bezel, Dan Scott, Younus Vora, Matthew Derstine, Cedric Lasfargues
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Publication number: 20160381776Abstract: A system for generating laser sustained broadband light includes a pump source configured to generate a pumping beam, a gas containment structure for containing a gas and a multi-pass optical assembly. The multi-pass optical assembly includes one or more optical elements configured to perform a plurality of passes of the pumping beam through a portion of the gas to sustain a broadband-light-emitting plasma. The one or more optical elements are arranged to collect an unabsorbed portion of the pumping beam transmitted through the plasma and direct the collected unabsorbed portion of the pumping beam back into the portion of the gas.Type: ApplicationFiled: June 20, 2016Publication date: December 29, 2016Inventors: Matthew Derstine, Ilya Bezel, Anatoly Shchemelinin, Eugene Shifrin
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Patent number: 9530636Abstract: A laser-sustained plasma light source includes a plasma cell configured to contain a volume of gas. The plasma cell is configured to receive illumination from a pump laser in order to generate plasma within the volume of gas. The plasma emits broadband radiation. The plasma cell includes one or more transparent portions being at least partially transparent to at least a portion of illumination from the pump laser and at least a portion of the broadband radiation emitted by the plasma. The plasma cell also includes one or more nanostructured layers disposed on one or more surfaces of the one or more transparent portions of the plasma cell. The one or more nanostructure layers form a region of refractive index control across an interface between the one or more transparent portions of the plasma cell and an atmosphere.Type: GrantFiled: March 17, 2015Date of Patent: December 27, 2016Assignee: KLA-Tencor CorporationInventors: Sebaek Oh, Anant Chimmalgi, Rahul Yadav, Matthew Derstine, Ilya Bezel
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Publication number: 20160322211Abstract: A system for controlling convective flow in a light-sustained plasma includes an illumination source configured to generate illumination, a plasma cell including a bulb for containing a volume of gas, a collector element arranged to focus illumination from the illumination source into the volume of gas in order to generate a plasma within the volume of gas contained within the bulb. Further, the plasma cell is disposed within a concave region of the collector element, where the collector element includes an opening for propagating a portion of a plume of the plasma to a region external to the concave region of the collect element.Type: ApplicationFiled: July 11, 2016Publication date: November 3, 2016Inventors: Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine, Kenneth P. Gross, David W. Shortt, Wei Zhao, Anant Chimmalgi, Jincheng Wang
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Patent number: 9390902Abstract: A system for controlling convective flow in a light-sustained plasma includes an illumination source configured to generate illumination, a plasma cell including a bulb for containing a volume of gas, a collector element arranged to focus illumination from the illumination source into the volume of gas in order to generate a plasma within the volume of gas contained within the bulb. Further, the plasma cell is disposed within a concave region of the collector element, where the collector element includes an opening for propagating a portion of a plume of the plasma to a region external to the concave region of the collect element.Type: GrantFiled: March 25, 2014Date of Patent: July 12, 2016Assignee: KLA-Tencor CorporationInventors: Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine, Kenneth P. Gross, David W. Shortt, Wei Zhao, Anant Chimmalgi, Jincheng Wang
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Publication number: 20160163516Abstract: An open plasma lamp includes a cavity section. A gas input and gas output of the cavity section are arranged to flow gas through the cavity section. The plasma lamp also includes a gas supply assembly fluidically coupled to the gas input of the cavity section and configured to supply gas to an internal volume of the cavity section. The plasma lamp also includes a nozzle assembly fluidically coupled to the gas output of the cavity section. The nozzle assembly and cavity section are arranged such that a volume of the gas receives pumping illumination from a pump source, where a sustained plasma emits broadband radiation. The nozzle assembly is configured to establish a convective gas flow from within the cavity section to a region external to the cavity section such that a portion of the sustained plasma is removed from the cavity section by the gas flow.Type: ApplicationFiled: February 15, 2016Publication date: June 9, 2016Inventors: Lauren Wilson, Anant Chimmalgi, Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine, Gildardo Delgado
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Publication number: 20160066402Abstract: A plasma cell for controlling convection includes a transmission element configured to receive illumination from an illumination source in order to generate a plasma within a plasma generation region of the volume of gas. The transmission element of the plasma cell is at least partially transparent to at least a portion of the illumination generated by the illumination source and at least a portion of broadband radiation emitted by the plasma. The plasma cell also includes one or more gas return channels formed within the transmission element for transferring gas from a region above the plasma generation region to a region below the plasma generation region.Type: ApplicationFiled: November 9, 2015Publication date: March 3, 2016Inventors: Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine
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Patent number: 9263238Abstract: An open plasma lamp includes a cavity section. A gas input and gas output of the cavity section are arranged to flow gas through the cavity section. The plasma lamp also includes a gas supply assembly fluidically coupled to the gas input of the cavity section and configured to supply gas to an internal volume of the cavity section. The plasma lamp also includes a nozzle assembly fluidically coupled to the gas output of the cavity section. The nozzle assembly and cavity section are arranged such that a volume of the gas receives pumping illumination from a pump source, where a sustained plasma emits broadband radiation. The nozzle assembly is configured to establish a convective gas flow from within the cavity section to a region external to the cavity section such that a portion of the sustained plasma is removed from the cavity section by the gas flow.Type: GrantFiled: March 26, 2015Date of Patent: February 16, 2016Assignee: KLA-Tencor CorporationInventors: Lauren Wilson, Anant Chimmalgi, Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine, Gildardo Delgado
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Publication number: 20150333471Abstract: A system for generating high power broadband light includes multiple light-sustained plasma light sources. Each one of the light-sustained sources includes a pumping source, a gas containment structure for containing gas and configured to receive pumping illumination from the pumping source and a parabolic reflector element arranged to collect at least a portion of the broadband radiation emitted by the generated plasma and form a collimated broadband radiation output. The system also including a set of optical elements configured to combine the collimated broadband outputs from the parabolic reflector elements of the multiple light-sustained plasma light sources into an aggregated broadband beam.Type: ApplicationFiled: March 24, 2015Publication date: November 19, 2015Inventors: Anant Chimmalgi, Rahul Yadav, Anatoly Shchemelinin, Ilya Bezel, Matthew Derstine
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Patent number: 9185788Abstract: A plasma cell for controlling convection includes a transmission element configured to receive illumination from an illumination source in order to generate a plasma within a plasma generation region of the volume of gas. The plasma cell also includes a top flow control element disposed above the plasma generation, which includes an internal channel configured to direct a plume of the plasma upward, and a bottom flow control element disposed below the plasma generation region, which includes an internal channel configured to direct gas upward toward the plasma generation region. The top flow control element and the bottom flow control element are arranged within the transmission element to form one or more gas return channels for transferring gas from a region above the plasma generation region to a region below the plasma generation region.Type: GrantFiled: May 27, 2014Date of Patent: November 10, 2015Assignee: KLA-Tencor CorporationInventors: Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine
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Publication number: 20150282288Abstract: A laser-sustained plasma light source for transverse plasma pumping includes a pump source configured to generate pumping illumination, one or more illumination optical elements and a gas containment structure configured to contain a volume of gas. The one or more illumination optical elements are configured to sustain a plasma within the volume of gas of the gas containment structure by directing pump illumination along a pump path to one or more focal spots within the volume of gas. The one or more collection optical elements are configured to collect broadband radiation emitted by the plasma along a collection path. Further, the illumination optical elements are configured to define the pump path such that pump illumination impinges the plasma along a direction transverse to a direction of propagation of the emitted broadband light of the collection path such that the pump illumination is substantially decoupled from the emitted broadband radiation.Type: ApplicationFiled: March 31, 2015Publication date: October 1, 2015Inventors: Ilya Bezel, Anatoly Shchemelinin, Richard Solarz, Sebaek Oh, Matthew Derstine
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Publication number: 20150279628Abstract: An open plasma lamp includes a cavity section. A gas input and gas output of the cavity section are arranged to flow gas through the cavity section. The plasma lamp also includes a gas supply assembly fluidically coupled to the gas input of the cavity section and configured to supply gas to an internal volume of the cavity section. The plasma lamp also includes a nozzle assembly fluidically coupled to the gas output of the cavity section. The nozzle assembly and cavity section are arranged such that a volume of the gas receives pumping illumination from a pump source, where a sustained plasma emits broadband radiation. The nozzle assembly is configured to establish a convective gas flow from within the cavity section to a region external to the cavity section such that a portion of the sustained plasma is removed from the cavity section by the gas flow.Type: ApplicationFiled: March 26, 2015Publication date: October 1, 2015Inventors: Lauren Wilson, Anant Chimmalgi, Ilya Bezel, Anatoly Shchemelinin, Matthew Derstine, Gildardo Delgado