Patents by Inventor James A. Carmichael

James A. Carmichael 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).

  • Patent number: 9815141
    Abstract: The present embodiments providing methods, systems and apparatuses of protecting a surface during laser machining. In some embodiments, a method of protecting a surface during laser machining comprises: directing a fluid into a cavity of an object being laser machined, where the fluid does not have laser absorption properties; and directing a plurality of laser pulses at a wall of the object being laser machined, where the laser pulses are configured to form a hole through the wall such that at least one laser pulse passes through the hole and enters the cavity while the fluid is directed into the cavity such that the laser pulse is incident on the fluid and a surface together in order to inhibit backwall damage.
    Type: Grant
    Filed: December 7, 2012
    Date of Patent: November 14, 2017
    Assignee: General Atomics
    Inventors: Andrew C. Forsman, Billy L. Johnson, Erik H. Lundgren, Timothy C. Bertch, Charles P. Moeller, James A. Carmichael
  • Patent number: 7706424
    Abstract: A apparatus and method are disclosed which may comprise a fluorine gas discharge laser system and electrode support system which may comprise a first electrode electrically connected to a source of high voltage; a first insulating mechanism insulating the first electrode from ground; a second electrode electrically insulated from the source of high voltage and together with the first electrode forming an elongated discharge region between portions of the first and second electrodes respectively extending along a longitudinal axis of each of the first and second electrodes, defining electrode discharge receiving region end portions; a plurality of current return tines electrically connected to the second electrode and to ground, the tines distributed along the longitudinal extent of the elongated discharge region; a second insulating mechanism electrically isolating the second electrode from ground except through the plurality of current return tines.
    Type: Grant
    Filed: September 29, 2005
    Date of Patent: April 27, 2010
    Assignee: Cymer, Inc.
    Inventors: Yoshiho Amada, James A. Carmichael, Richard G. Morton, Richard M. Ness
  • Patent number: 7522650
    Abstract: A method and apparatus if disclosed which may comprise a high power high repetition rate gas discharge laser UV light source which may comprise: a gas discharge chamber comprising an interior wall comprising a vertical wall and an adjacent bottom wall; a gas circulation fan creating a gas flow path adjacent the interior vertical wall and the adjacent bottom wall; an in-chamber dust trap positioned a region of low gas flow, which may be along an interior wall and may comprise at least one meshed screen, e.g., a plurality of meshed screens, which may comprise at least two different gauge meshed screens. The dust trap may extend along the bottom interior wall of the chamber and/or a vertical portion of the interior wall. The dust trap may comprise a first meshed screen having a first gauge; a second meshed screen having a second gauge smaller than the first gauge; and the second meshed screen intermediate the first meshed screen and the interior wall.
    Type: Grant
    Filed: March 31, 2004
    Date of Patent: April 21, 2009
    Assignee: Cymer, Inc.
    Inventors: William N. Partlo, Yoshiho Amada, James A. Carmichael, Timothy S. Dyer, Walter D. Gillespie, Bryan G. Moosman, Richard G. Morton, Curtis L. Rettig, Brian D. Strate, Thomas D. Steiger, Fedor Trintchouk, Richard C. Ujazdowski
  • Patent number: 7339973
    Abstract: Fluorine gas discharge laser electrodes and electrode systems that may comprise a plurality of current return tangs extending for less than the respective length of the second elongated gas discharge electrode. In addition electrodes may comprise a first discharge shaping magnet mounted in a first elongated gas discharge electrode and a second discharge shaping magnet mounted in a second elongated gas discharge electrode. Also is an electrode may comprise a crown straddling the centerline axis between the pair of side walls and the pair of end walls, comprising a first material, forming at least a portion of the discharge region of the electrode and a pair of elongated high erosion regions on either side of the crown comprising a second material with a relatively higher erosion rate during gas discharge than that of the first material.
    Type: Grant
    Filed: September 26, 2003
    Date of Patent: March 4, 2008
    Assignee: Cymer, Inc.
    Inventors: Richard G. Morton, Bryan Moosman, Timothy S. Dyer, James A. Carmichael, Jiping Zhang
  • Patent number: 6963595
    Abstract: An automatic F2 laser gas control, for a modular high repetition rate ultraviolet gas discharge laser. The laser gas control includes techniques, monitors, and processor for monitoring the F2 consumption rates through the operating life of the laser system. These consumption rates are used by a processor programmed with an algorithm to determine F2 injections needed to maintain laser beam quality within a delivery range. Preferred embodiments include F2 controls for a two-chamber MOPA laser system.
    Type: Grant
    Filed: January 31, 2003
    Date of Patent: November 8, 2005
    Assignee: Cymer, Inc.
    Inventors: John A. Rule, Richard C. Morton, Vladimir V. Fleurov, Fedor Trintchouk, Toshihiko Ishihara, Alexander I. Ershov, James A. Carmichael
  • Publication number: 20040165638
    Abstract: Fluorine gas discharge laser electrodes and electrode systems are disclosed that may comprise a plurality of current return tangs extending for less than the respective length of the second elongated gas discharge electrode. In addition disclosed are electrodes that may comprise a first discharge shaping magnet mounted in a first elongated gas discharge electrode and a second discharge shaping magnet mounted in a second elongated gas discharge electrode. This may also comprise at least one of the first and second gas discharge electrodes has imbedded therein a first and a second auxiliary field creating magnet.
    Type: Application
    Filed: September 26, 2003
    Publication date: August 26, 2004
    Inventors: Richard G. Morton, Bryan Moosman, Timothy S. Dyer, James A. Carmichael, Jiping Zhang
  • Patent number: 5457430
    Abstract: Optical pumping devices use light reflected from reflecting surfaces to provide a portion of the light incident on the photodetector. Conventional optical pumping devices experience a decay, over time, of the initial light intensity incident on the photodetector. The optical pumping device of the invention experiences reduced light intensity decay. The invention passivates the reflecting surfaces to eliminate tarnish and oxidation by pretarnishing the surfaces or covering the surfaces with a material whose reflectivity does not vary over time, such as gold.
    Type: Grant
    Filed: November 10, 1994
    Date of Patent: October 10, 1995
    Assignee: Ball Corporation
    Inventors: Thomas C. English, Funming Li, Ronald E. White, James A. Carmichael