Patents by Inventor Gregor Dellemann
Gregor Dellemann 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: 11735393Abstract: A method for operating a multi-beam particle beam microscope includes: scanning a multiplicity of particle beams over an object; directing electron beams emanating from impingement locations of the particle beams at the object onto an electron converter; detecting first signals generated by impinging electrons in the electron converter via a plurality of detection elements of a first detection system during a first time period; detecting second signals generated by impinging electrons in the electron converter via a plurality of detection elements of a second detection system during a second time period; and assigning to the impingement locations the signals which were detected via the detection elements of the first detection system during the first time period, for example on the basis of the detection signals which were detected via the detection elements of the second detection system during the second time period.Type: GrantFiled: March 25, 2021Date of Patent: August 22, 2023Assignee: Carl Zeiss MultiSEM GmbHInventors: Dirk Zeidler, Gregor Dellemann, Gunther Scheunert
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Publication number: 20230215686Abstract: A method for operating a multi-beam particle beam microscope includes: scanning a multiplicity of particle beams over an object; directing electron beams emanating from impingement locations of the particle beams at the object onto an electron converter; detecting first signals generated by impinging electrons in the electron converter via a plurality of detection elements of a first detection system during a first time period; detecting second signals generated by impinging electrons in the electron converter via a plurality of detection elements of a second detection system during a second time period; and assigning to the impingement locations the signals which were detected via the detection elements of the first detection system during the first time period, for example on the basis of the detection signals which were detected via the detection elements of the second detection system during the second time period.Type: ApplicationFiled: March 9, 2023Publication date: July 6, 2023Inventors: Dirk Zeidler, Gregor Dellemann, Gunther Scheunert
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Publication number: 20210210306Abstract: A method for operating a multi-beam particle beam microscope includes: scanning a multiplicity of particle beams over an object; directing electron beams emanating from impingement locations of the particle beams at the object onto an electron converter; detecting first signals generated by impinging electrons in the electron converter via a plurality of detection elements of a first detection system during a first time period; detecting second signals generated by impinging electrons in the electron converter via a plurality of detection elements of a second detection system during a second time period; and assigning to the impingement locations the signals which were detected via the detection elements of the first detection system during the first time period, for example on the basis of the detection signals which were detected via the detection elements of the second detection system during the second time period.Type: ApplicationFiled: March 25, 2021Publication date: July 8, 2021Inventors: Dirk Zeidler, Gregor Dellemann, Gunther Scheunert
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Patent number: 8761561Abstract: In general, in one aspect, the disclosure features a system that includes a flexible waveguide having a hollow core extending along a waveguide axis and a region surrounding the core, the region being configured to guide radiation from the CO2 laser along the waveguide axis from an input end to an output end of the waveguide. The system also includes a handpiece attached to the waveguide, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient and the handpiece includes a tip extending past the output end that provides a minimum standoff distance between the output end and the target location.Type: GrantFiled: January 31, 2013Date of Patent: June 24, 2014Assignee: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Publication number: 20140005646Abstract: In general, in one aspect, the disclosure features a system that includes a flexible waveguide having a hollow core extending along a waveguide axis and a region surrounding the core, the region being configured to guide radiation from the CO2 laser along the waveguide axis from an input end to an output end of the waveguide. The system also includes a handpiece attached to the waveguide, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient and the handpiece includes a tip extending past the output end that provides a minimum standoff distance between the output end and the target location.Type: ApplicationFiled: August 30, 2013Publication date: January 2, 2014Applicant: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Publication number: 20130237976Abstract: In general, in one aspect, the disclosure features a system that includes a flexible waveguide having a hollow core extending along a waveguide axis and a region surrounding the core, the region being configured to guide radiation from the CO2 laser along the waveguide axis from an input end to an output end of the waveguide. The system also includes a handpiece attached to the waveguide, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient and the handpiece includes a tip extending past the output end that provides a minimum standoff distance between the output end and the target location.Type: ApplicationFiled: January 31, 2013Publication date: September 12, 2013Applicant: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Patent number: 8320725Abstract: In general, in one aspect, the disclosure features a system that includes a flexible waveguide having a hollow core extending along a waveguide axis and a region surrounding the core, the region being configured to guide radiation from the CO2 laser along the waveguide axis from an input end to an output end of the waveguide. The system also includes a handpiece attached to the waveguide, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient and the handpiece includes a tip extending past the output end that provides a minimum standoff distance between the output end and the target location.Type: GrantFiled: June 21, 2011Date of Patent: November 27, 2012Assignee: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Publication number: 20110251603Abstract: In general, in one aspect, the disclosure features a system that includes a flexible waveguide having a hollow core extending along a waveguide axis and a region surrounding the core, the region being configured to guide radiation from the CO2 laser along the waveguide axis from an input end to an output end of the waveguide. The system also includes a handpiece attached to the waveguide, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient and the handpiece includes a tip extending past the output end that provides a minimum standoff distance between the output end and the target location.Type: ApplicationFiled: June 21, 2011Publication date: October 13, 2011Applicant: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Patent number: 7991258Abstract: In general, in one aspect, the disclosure features a system that includes a flexible waveguide having a hollow core extending along a waveguide axis and a region surrounding the core, the region being configured to, guide radiation from the CO2 laser along the waveguide axis from an input end to an output end of the waveguide. The system also includes a handpiece attached to the waveguide, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient and the handpiece includes a tip extending past the output end that provides a minimum standoff distance between the output end and the target location.Type: GrantFiled: October 2, 2008Date of Patent: August 2, 2011Assignee: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Publication number: 20090034927Abstract: In general, in one aspect, the disclosure features a system that includes a flexible waveguide having a hollow core extending along a waveguide axis and a region surrounding the core, the region being configured to, guide radiation from the CO2 laser along the waveguide axis from an input end to an output end of the waveguide. The system also includes a handpiece attached to the waveguide, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient and the handpiece includes a tip extending past the output end that provides a minimum standoff distance between the output end and the target location.Type: ApplicationFiled: October 2, 2008Publication date: February 5, 2009Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Patent number: 7349589Abstract: In general, in one aspect, the invention features apparatus that include an assembly including a radiation input port configured to receive radiation from a radiation source and an output port configured to couple the radiation to a photonic crystal fiber, the assembly further including a retardation element positioned to modify a polarization state of the radiation received from the radiation source before it is coupled to the photonic crystal fiber.Type: GrantFiled: April 8, 2005Date of Patent: March 25, 2008Assignee: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Robert Payne, Yoel Fink, Gokhan Ulu
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Patent number: 7331954Abstract: In general, in one aspect, the invention features methods that include directing radiation to a target location of a patient through a photonic crystal fiber, the photonic crystal fiber having a hollow core and flowing a fluid through the hollow core to the target location of the patient.Type: GrantFiled: April 8, 2005Date of Patent: February 19, 2008Assignee: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Publication number: 20070147752Abstract: In general, in one aspect, the invention features methods that include guiding radiation at a first wavelength, ?1, through a core of a photonic crystal fiber and guiding radiation at a second wavelength, ?2, through the photonic crystal fiber, wherein |?1??2|>100 nm.Type: ApplicationFiled: June 9, 2006Publication date: June 28, 2007Inventors: Ori Weisberg, Gregor Dellemann, Uri Kolodny, David Torres, Charalambos Anastassiou, Steven Jacobs, Gil Shapira, Burak Temelkuran, Aaron Micetich, Rokan Ahmad, Ytshak Avrahami, Yelena Kann, Max Shurgalin, Yoel Fink, Tairan Wang
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Publication number: 20070122096Abstract: In general, in one aspect, the invention features methods that include directing radiation to a target location of a patient through a photonic crystal fiber, the photonic crystal fiber having a hollow core and flowing a fluid through the hollow core to the target location of the patient.Type: ApplicationFiled: October 20, 2006Publication date: May 31, 2007Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven Jacobs, Tairan Wang, Uri Kolodny, Robert Payne, Yoel Fink
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Patent number: 7167622Abstract: In general, in one aspect, the invention features systems, including a photonic crystal fiber including a core extending along a waveguide axis and a dielectric confinement region surrounding the core, the dielectric confinement region being configured to guide radiation along the waveguide axis from an input end to an output end of the photonic crystal fiber. The systems also includes a handpiece attached to the photonic crystal fiber, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient.Type: GrantFiled: April 8, 2005Date of Patent: January 23, 2007Assignee: OmniGuide, Inc.Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven A. Jacobs, Tairan Wang, Uri Kolodny, Robert Payne, Yoel Fink
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Publication number: 20050259942Abstract: In general, in one aspect, the invention features methods that include directing radiation to a target location of a patient through a photonic crystal fiber, the photonic crystal fiber having a hollow core and flowing a fluid through the hollow core to the target location of the patient.Type: ApplicationFiled: April 8, 2005Publication date: November 24, 2005Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven Jacobs, Tairan Wang, Uri Kolodny, Jesse Rusk, Robert Payne, Yoel Fink
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Publication number: 20050259933Abstract: In general, in one aspect, the invention features systems, including a photonic crystal fiber including a core extending along a waveguide axis and a dielectric confinement region surrounding the core, the dielectric confinement region being configured to guide radiation along the waveguide axis from an input end to an output end of the photonic crystal fiber. The systems also includes a handpiece attached to the photonic crystal fiber, wherein the handpiece allows an operator to control the orientation of the output end to direct the radiation to a target location of a patient.Type: ApplicationFiled: April 8, 2005Publication date: November 24, 2005Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven Jacobs, Tairan Wang, Uri Kolodny, Robert Payne, Yoel Fink
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Publication number: 20050259934Abstract: In general, in one aspect, the invention features apparatus that include an assembly including a radiation input port configured to receive radiation from a radiation source and an output port configured to couple the radiation to a photonic crystal fiber, the assembly further including a retardation element positioned to modify a polarization state of the radiation received from the radiation source before it is coupled to the photonic crystal fiber.Type: ApplicationFiled: April 8, 2005Publication date: November 24, 2005Inventors: Burak Temelkuran, Charalambos Anastassiou, David Torres, Gil Shapira, Max Shurgalin, Gregor Dellemann, Ori Weisberg, Steven Jacobs, Tairan Wang, Uri Kolodny, Robert Payne, Yoel Fink, Gokhan Ulu