Patents by Inventor David Brinkley
David Brinkley 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: 11964310Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: GrantFiled: January 6, 2023Date of Patent: April 23, 2024Assignee: Bruker Nano, Inc.Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Publication number: 20230158555Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: ApplicationFiled: January 6, 2023Publication date: May 25, 2023Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Patent number: 11577286Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: GrantFiled: June 15, 2021Date of Patent: February 14, 2023Assignee: Bruker Nano, Inc.Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Patent number: 11391664Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: GrantFiled: May 17, 2019Date of Patent: July 19, 2022Assignee: Bruker Nano, Inc.Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Patent number: 11311917Abstract: Method and apparatus for identifying a contaminant on a substrate. Identification of a contaminant removed from a substrate can be useful in identifying and eliminating or reducing the source of the contamination and tailoring the removal method to minimize the potential for substrate damage. The methods and apparatus for identification of the contaminant provide liberation of molecules of the contaminant from the surface of the substrate, accounting for different geometries and substrate materials, sample preparation, and chemical analysis of the contaminant.Type: GrantFiled: January 6, 2017Date of Patent: April 26, 2022Assignee: Bruker Nano, Inc.Inventors: Jeffrey E. LeClaire, Kenneth G. Roessler, David Brinkley, Alexander M. Figliolini
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Publication number: 20210308724Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: ApplicationFiled: June 15, 2021Publication date: October 7, 2021Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Patent number: 11040379Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: GrantFiled: July 19, 2019Date of Patent: June 22, 2021Assignee: Bruker Nano, Inc.Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Publication number: 20190337025Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: ApplicationFiled: July 19, 2019Publication date: November 7, 2019Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Publication number: 20190271631Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: ApplicationFiled: May 17, 2019Publication date: September 5, 2019Inventors: Tod Evan Robinson, Bernabe Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. LeClaire
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Patent number: 10384238Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: GrantFiled: May 20, 2016Date of Patent: August 20, 2019Assignee: RAVE LLCInventors: Tod Evan Robinson, Bernabe J. Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. Leclaire
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Patent number: 10330581Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: GrantFiled: May 20, 2016Date of Patent: June 25, 2019Assignee: RAVE LLCInventors: Tod Evan Robinson, Bernabe J. Arruza, Kenneth Gilbert Roessler, David Brinkley, Jeffrey E. Leclaire
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Publication number: 20170189945Abstract: Method and apparatus for identifying a contaminant on a substrate. Identification of a contaminant removed from a substrate can be useful in identifying and eliminating or reducing the source of the contamination and tailoring the removal method to minimize the potential for substrate damage. The methods and apparatus for identification of the contaminant provide liberation of molecules of the contaminant from the surface of the substrate, accounting for different geometries and substrate materials, sample preparation, and chemical analysis of the contaminant.Type: ApplicationFiled: January 6, 2017Publication date: July 6, 2017Inventors: Jeffrey E. LeClaire, Kenneth G. Roessler, David Brinkley, Alexander M. Figliolini
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Patent number: 9588420Abstract: A photomask includes at least one feature disposed thereon. The at least one feature has an associated design location, where a distance between a location of the at least one feature and the associated design location defines a positional error of the at least one feature. A method for improving a performance characteristic of the photomask includes directing electromagnetic radiation toward the photomask, the electromagnetic radiation having a wavelength that substantially coincides with a high absorption coefficient of the photomask; generating a thermal energy increase in the photomask through incidence of the electromagnetic radiation thereon; and decreasing the positional error as a result of the generating the thermal energy increase in the photomask.Type: GrantFiled: February 19, 2016Date of Patent: March 7, 2017Assignee: RAVE LLCInventors: Jeffrey E. LeClaire, Kenneth G. Roessler, David Brinkley
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Publication number: 20160263632Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: ApplicationFiled: May 20, 2016Publication date: September 15, 2016Inventors: TOD EVAN ROBINSON, BERNABE J. ARRUZA, KENNETH GILBERT ROESSLER, DAVID BRINKLEY, JEFFREY E. LECLAIRE
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Publication number: 20160266165Abstract: A debris collection and metrology system for collecting and analyzing debris from a tip used in nanomachining processes, the system including an irradiation source, an irradiation detector, an actuator, and a controller. The irradiation source is operable to direct incident irradiation onto the tip, and the irradiation detector is operable to receive a sample irradiation from the tip, the sample irradiation being generated as a result of the direct incident irradiation being applied onto the tip. The controller is operatively coupled to an actuator system and the irradiation detector, and the controller is operable to receive a first signal based on a first response of the irradiation detector to the sample irradiation, and the controller is operable to effect relative motion between the tip and at least one of the irradiation source and the irradiation detector based on the first signal.Type: ApplicationFiled: May 20, 2016Publication date: September 15, 2016Inventors: TOD EVAN ROBINSON, BERNABE J. ARRUZA, KENNETH GILBERT ROESSLER, DAVID BRINKLEY, JEFFREY E. LECLAIRE
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Publication number: 20160170297Abstract: A photomask includes at least one feature disposed thereon. The at least one feature has an associated design location, where a distance between a location of the at least one feature and the associated design location defines a positional error of the at least one feature. A method for improving a performance characteristic of the photomask includes directing electromagnetic radiation toward the photomask, the electromagnetic radiation having a wavelength that substantially coincides with a high absorption coefficient of the photomask; generating a thermal energy increase in the photomask through incidence of the electromagnetic radiation thereon; and decreasing the positional error as a result of the generating the thermal energy increase in the photomask.Type: ApplicationFiled: February 19, 2016Publication date: June 16, 2016Inventors: JEFFREY E. LECLAIRE, KENNETH G. ROESSLER, DAVID BRINKLEY
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Patent number: 9285674Abstract: A photomask includes at least one feature disposed thereon. The at least one feature has an associated design location, where a distance between a location of the at least one feature and the associated design location defines a positional error of the at least one feature. A method for improving a performance characteristic of the photomask includes directing electromagnetic radiation toward the photomask, the electromagnetic radiation having a wavelength that substantially coincides with a high absorption coefficient of the photomask; generating a thermal energy increase in the photomask through incidence of the electromagnetic radiation thereon; and decreasing the positional error as a result of the generating the thermal energy increase in the photomask.Type: GrantFiled: March 12, 2015Date of Patent: March 15, 2016Assignee: RAVE LLCInventors: Jeffrey E. LeClaire, Kenneth G. Roessler, David Brinkley
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Publication number: 20150185602Abstract: A photomask includes at least one feature disposed thereon. The at least one feature has an associated design location, where a distance between a location of the at least one feature and the associated design location defines a positional error of the at least one feature. A method for improving a performance characteristic of the photomask includes directing electromagnetic radiation toward the photomask, the electromagnetic radiation having a wavelength that substantially coincides with a high absorption coefficient of the photomask; generating a thermal energy increase in the photomask through incidence of the electromagnetic radiation thereon; and decreasing the positional error as a result of the generating the thermal energy increase in the photomask.Type: ApplicationFiled: March 12, 2015Publication date: July 2, 2015Inventors: Jeffrey E. LeClaire, Kenneth G. Roessler, David Brinkley
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Patent number: 8986460Abstract: Methods for cleaning a surface of a photomask and for increasing the useable lifetime of the photomask are disclosed. One method includes, a first wafer print processing using a photomask and a pellicle disposed across the photomask, and cleaning the photomask. The cleaning the photomask includes directing a laser beam through the pellicle toward the photomask, the laser beam having a wavelength that is substantially equal to a local maximum of an absorption spectrum of the photomask, heating the photomask with the laser beam, and transferring heat from the photomask to a contaminant disposed on the photomask, thereby thermally decomposing the contaminant.Type: GrantFiled: June 3, 2014Date of Patent: March 24, 2015Assignee: Rave, LLCInventors: Jeffrey E. LeClaire, Kenneth G. Roessler, David Brinkley
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Publication number: 20140283873Abstract: Methods for cleaning a surface of a photomask and for increasing the useable lifetime of the photomask are disclosed. One method includes, a first wafer print processing using a photomask and a pellicle disposed across the photomask, and cleaning the photomask. The cleaning the photomask includes directing a laser beam through the pellicle toward the photomask, the laser beam having a wavelength that is substantially equal to a local maximum of an absorption spectrum of the photomask, heating the photomask with the laser beam, and transferring heat from the photomask to a contaminant disposed on the photomask, thereby thermally decomposing the contaminant.Type: ApplicationFiled: June 3, 2014Publication date: September 25, 2014Inventors: Jeffrey E. LeClaire, Kenneth G. Roessler, David Brinkley