Patents by Inventor Joseph H. Bunton
Joseph H. Bunton 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: 20110260054Abstract: The present invention relates to atom probe pulse energy. One aspect of the invention is directed toward a method that includes establishing a data relationship between pulse energy and bias energy for a target evaporation rate. In selected embodiments, establishing a data relationship can include determining an equivalent pulse fraction for a selected pulse energy and bias energy combination based on a local change in bias energy compared to a local change in pulse energy associated with the selected pulse energy and bias energy combination. Another aspect of the invention is directed toward a method that includes determining an equivalent pulse fraction for a first bias energy and pulse energy combination and/or a second bias energy and pulse energy combination based on the difference between the first bias energy and the second bias energy compared to the difference between the first pulse energy and the second pulse energy.Type: ApplicationFiled: October 31, 2006Publication date: October 27, 2011Applicant: Imago Scientific Instruments CorporationInventor: Joseph H. Bunton
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Patent number: 7884323Abstract: The present invention relates generally to atom probes, atom probe specimens, and associated methods. For example, certain aspects are directed toward methods for analyzing a portion of a specimen that includes selecting a region of interest and moving a portion of material in a border region proximate to the region of interest so that at least a portion of the region of interest protrudes relative to at least a portion of the border region. The method further includes analyzing a portion of the region of interest. Other aspects of the invention are directed toward a method for applying photonic energy in an atom probe process by passing photonic energy through a lens system separated from a photonic device and spaced apart from the photonic device. Yet other aspects of the invention are directed toward a method for reflecting photonic energy off an outer surface of an electrode onto a specimen.Type: GrantFiled: August 15, 2006Date of Patent: February 8, 2011Assignee: Cameca Instruments, Inc.Inventors: Thomas F. Kelly, Joseph H. Bunton, Scott A. Wiener
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Patent number: 7772552Abstract: In an atom probe or other mass spectrometer wherein a specimen is subjected to ionizing pulses (voltage pulses, thermal pulses, etc.) which induce field evaporation of ions from the specimen, the evaporated ions are then subjected to corrective pulses which are synchronized with the ionizing pulses. These corrective pulses have a magnitude and timing sufficient to reduce the velocity distribution of the evaporated ions, thereby resulting in increased mass resolution for the atom probe/mass spectrometer. In a preferred arrangement, ionizing pulses are supplied to the specimen from a first counter electrode adjacent the specimen. The corrective pulses are then supplied from a second counter electrode which is coupled to the first via a passive or active network, with the network controlling the form (timing, amplitude, and shape) of the corrective pulses.Type: GrantFiled: June 17, 2005Date of Patent: August 10, 2010Assignee: Cameca Instruments, Inc.Inventors: Tye Gribb, Jesse D. Olson, Daniel Lenz, Joseph H. Bunton
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Publication number: 20100116985Abstract: A laser atom probe situates a counter electrode between a specimen mount and a detector, and provides a laser having its beam aligned to illuminate the specimen through the aperture of the counter electrode. The detector, specimen mount, and/or the counter electrode may be charged to some boost voltage and then be pulsed to bring the specimen to ionization. The timing of the laser pulses may be used to determine ion departure and arrival times allowing determination of the mass-to-charge ratios of the ions, thus their identities. Automated alignment methods are described wherein the laser is automatically directed to areas of interest.Type: ApplicationFiled: January 22, 2010Publication date: May 13, 2010Applicant: Imago Scientific Instruments CorporationInventors: Joseph H. Bunton, Jesse D. Olson
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Patent number: 7683318Abstract: A laser atom probe (100) situates a counter electrode between a specimen mount and a detector (106), and provides a laser (116) having its beam (122) aligned to illuminate the specimen (104) through the aperture (110) of the counter electrode (108). The detector, specimen mount (102), and then be pulsed to bring the specimen to ionization. The timing of the laser pulses may be used to determine ion departure and arrival times allowing determination of the mass-to-charge ratios of the ions, thus their identities. Automated alignment methods are described wherein the laser is automatically directed to areas of interest.Type: GrantFiled: August 19, 2004Date of Patent: March 23, 2010Assignee: Imago Scientific Instruments CorporationInventors: Joseph H. Bunton, Thomas F. Kelly, Tye T. Gribb
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Publication number: 20090114620Abstract: A method for treating an atom probe electrode (120), which comprises the steps of providing an atom electrode (120) having a surface (123) and an aperture (122); and removing material (604) from the surface (123) to reduce a potential of the atom probe electrode creating a non-uniformity in an electric field (502) when the atom probe electrode is used in a atom probe device during specimen analysis.Type: ApplicationFiled: July 21, 2005Publication date: May 7, 2009Applicant: Imago Scientific Instruments CorporationInventors: Robert M. Ulfig, Joseph H. Bunton, Thomas F. Kelly, David J. Larson, Richard L. Martens, Keith J. Thompson, Scott A. Wiener
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Publication number: 20090050797Abstract: In an atom probe or other mass spectrometer wherein a specimen is subjected to ionizing pulses (voltage pulses, thermal pulses, etc.) which induce field evaporation of ions from the specimen, the evaporated ions are then subjected to corrective pulses which are synchronized with the ionizing pulses. These corrective pulses have a magnitude and timing sufficient to reduce the velocity distribution of the evaporated ions, thereby resulting in increased mass resolution for the atom probe/mass spectrometer. In a preferred arrangement, ionizing pulses are supplied to the specimen from a first counter electrode adjacent the specimen. The corrective pulses are then supplied from a second counter electrode which is coupled to the first via a passive or active network, with the network controlling the form (timing, amplitude, and shape) of the corrective pulses.Type: ApplicationFiled: June 17, 2005Publication date: February 26, 2009Applicant: Imago Scientific Instruments CorporationInventors: Tye Gribb, Jesse D. Olson, Daniel R. Lenz, Joseph H. Bunton
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Publication number: 20080308728Abstract: The present invention relates generally to atom probes, atom probe specimens, and associated methods. For example, certain aspects are directed toward methods for analyzing a portion of a specimen that includes selecting a region of interest and moving a portion of material in a border region proximate to the region of interest so that at least a portion of the region of interest protrudes relative to at least a portion of the border region. The method further includes analyzing a portion of the region of interest. Other aspects of the invention are directed toward a method for applying photonic energy in an atom probe process by passing photonic energy through a lens system separated from a photonic device and spaced apart from the photonic device. Yet other aspects of the invention are directed toward a method for reflecting photonic energy off an outer surface of an electrode onto a specimen.Type: ApplicationFiled: August 15, 2006Publication date: December 18, 2008Applicant: Imago Scientific Instruments CorporationInventors: Thomas F. Kelly, Joseph H. Bunton, Scott A. Wiener