Patents by Inventor Glen A. Slack

Glen A. Slack 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).

  • Publication number: 20080182092
    Abstract: Bulk single crystal of aluminum nitride (AlN) having an a real planar defect density?100 cm?2 Methods for growing single crystal aluminum nitride include melting an aluminum foil to uniformly wet a foundation with a layer of aluminum, the foundation forming a portion of an AlN seed holder, for an AlN seed to be used for the AlN growth. The holder may consist essentially of a substantially impervious backing plate.
    Type: Application
    Filed: January 17, 2008
    Publication date: July 31, 2008
    Applicant: Crystal IS, Inc.
    Inventors: Robert T. Bondokov, Kenneth E. Morgan, Leo J. Schowalter, Glen A. Slack
  • Publication number: 20080134957
    Abstract: A crucible for growing III-nitride (e.g., aluminum nitride) single crystals is provided. The crucible includes an elongated wall structure defining an interior crystal growth cavity. Embodiments include a plurality of grains and a wall thickness of at least about 1.5 times the average grain size. In particular embodiments, the crucible includes first and second layers of grains the first layer including grains forming an inside surface thereof and the second layer being superposed with the first layer. The crucible may be fabricated from tungsten-rhenium (W—Re) alloys; rhenium (Re); tantalum monocarbide (TaC); tantalum nitride (Ta2N); hafnium nitride (HfN); a mixture of tungsten and tantalum (W—Ta); tungsten (W); and combinations thereof.
    Type: Application
    Filed: March 23, 2007
    Publication date: June 12, 2008
    Applicant: Crystal IS, Inc.
    Inventors: Leo J. Schowalter, Glen A. Slack
  • Publication number: 20080006200
    Abstract: A method and apparatus for producing bulk single crystals of AlN having low dislocation densities of about 10,000 cm?2 or less includes a crystal growth enclosure with Al and N2 source material therein, capable of forming bulk crystals. The apparatus maintains the N2 partial pressure at greater than stoichiometric pressure relative to the Al within the crystal growth enclosure, while maintaining the total vapor pressure in the crystal growth enclosure at super-atmospheric pressure. At least one nucleation site is provided in the crystal growth enclosure, and provision is made for cooling the nucleation site relative to other locations in the crystal growth enclosure. The Al and N2 vapor is then deposited to grow single crystalline low dislocation density AlN at the nucleation site. High efficiency ultraviolet light emitting diodes and ultraviolet laser diodes are fabricated on low defect density AlN substrates, which are cut from the low dislocation density AlN crystals.
    Type: Application
    Filed: November 3, 2005
    Publication date: January 10, 2008
    Applicant: Crystal IS, Inc.
    Inventors: Leo Schowalter, Glen Slack, J. Rojo
  • Publication number: 20070243653
    Abstract: Fabrication of doped and undoped stoichiometric polycrystalline AlN ceramics with high purity is accomplished by, for example, reacting Al pellets with nitrogen gas. Such polycrystalline AlN ceramics may be utilized in the fabrication of high purity AlN single crystals, which may be annealed to enhance a conductivity thereof.
    Type: Application
    Filed: March 30, 2007
    Publication date: October 18, 2007
    Applicant: Crystal IS, Inc.
    Inventors: Kenneth Morgan, Leo Schowalter, Glen Slack
  • Publication number: 20070134827
    Abstract: Reducing the microvoid (MV) density in AlN ameliorates numerous problems related to cracking during crystal growth, etch pit generation during the polishing, reduction of the optical transparency in an AlN wafer, and, possibly, growth pit formation during epitaxial growth of AlN and/or AlGaN. This facilitates practical crystal production strategies and the formation of large, bulk AlN crystals with low defect densities—e.g., a dislocation density below 104 cm?2 and an inclusion density below 104 cm?3 and/or a MV density below 104 cm?3.
    Type: Application
    Filed: November 28, 2006
    Publication date: June 14, 2007
    Inventors: Robert Bondokov, Kenneth Morgan, Glen Slack, Leo Schowalter
  • Publication number: 20070131160
    Abstract: Fabrication of doped AlN crystals and/or AlGaN epitaxial layers with high conductivity and mobility is accomplished by, for example, forming mixed crystals including a plurality of impurity species and electrically activating at least a portion of the crystal.
    Type: Application
    Filed: December 4, 2006
    Publication date: June 14, 2007
    Inventors: Glen Slack, Leo Schowalter
  • Publication number: 20070101932
    Abstract: Bulk single crystals of AlN having a diameter greater than about 25 mm and dislocation densities of about 10,000 cm?2 or less and high-quality AlN substrates having surfaces of any desired crystallographic orientation fabricated from these bulk crystals.
    Type: Application
    Filed: May 9, 2006
    Publication date: May 10, 2007
    Applicant: Crystal IS, Inc.
    Inventors: Leo Schowalter, Glen Slack, J. Rojo, Robert Bondokov, Kenneth Morgan, Joseph Smart
  • Patent number: 7211146
    Abstract: A crucible for growing III-nitride (e.g., aluminum nitride) single crystals is provided. The crucible includes an elongated wall structure defining an interior crystal growth cavity. Embodiments include a plurality of grains and a wall thickness of at least about 1.5 times the average grain size. In particular embodiments, the crucible includes first and second layers of grains the first layer including grains forming an inside surface thereof and the second layer being superposed with the first layer. The crucible may be fabricated from tungsten-rhenium (W—Re) alloys; rhenium (Re); tantalum monocarbide (TaC); tantalum nitride (Ta2N); hafnium nitride (HfN); a mixture of tungsten and tantalum (W—Ta); tungsten (W); and combinations thereof.
    Type: Grant
    Filed: April 12, 2004
    Date of Patent: May 1, 2007
    Assignee: Crystal IS, Inc.
    Inventors: Leo J. Schowalter, Glen A. Slack
  • Publication number: 20060288929
    Abstract: Fabrication of AlN substrates suitable for epitaxial deposition of high-quality nitride-based compounds thereon having at least one single-crystal and substantially planarized useful area exceeding about 1 cm2 with a peak-to-valley surface topography in the useful area being less than about 50 nm is accomplished by, for example, employing an active solution that reacts non-selectively with the substrate material.
    Type: Application
    Filed: June 7, 2006
    Publication date: December 28, 2006
    Applicant: Crystal IS, Inc.
    Inventors: Glen Slack, Sandra Schujman, Nicholas Meyer, Leo Schowalter
  • Publication number: 20060005763
    Abstract: A method and apparatus for producing bulk single crystals of AlN having low dislocation densities of about 10,000 cm?2 or less includes a crystal growth enclosure with Al and N2 source material therein, capable of forming bulk crystals. The apparatus maintains the N2 partial pressure at greater than stoichiometric pressure relative to the Al within the crystal growth enclosure, while maintaining the total vapor pressure in the crystal growth enclosure at super-atmospheric pressure. At least one nucleation site is provided in the crystal growth enclosure, and provision is made for cooling the nucleation site relative to other locations in the crystal growth enclosure. The Al and N2 vapor is then deposited to grow single crystalline low dislocation density AlN at the nucleation site. High efficiency ultraviolet light emitting diodes and ultraviolet laser diodes are fabricated on low defect density AlN substrates, which are cut from the low dislocation density AlN crystals.
    Type: Application
    Filed: August 3, 2004
    Publication date: January 12, 2006
    Applicant: Crystal IS, Inc.
    Inventors: Leo Schowalter, Glen Slack, J. Rojo
  • Publication number: 20050223967
    Abstract: A crucible for growing III-nitride (e.g., aluminum nitride) single crystals is provided. The crucible includes an elongated wall structure defining an interior crystal growth cavity. Embodiments include a plurality of grains and a wall thickness of at least about 1.5 times the average grain size. In particular embodiments, the crucible includes first and second layers of grains the first layer including grains forming an inside surface thereof and the second layer being superposed with the first layer. The crucible may be fabricated from tungsten-rhenium (W—Re) alloys; rhenium (Re); tantalum monocarbide (TaC); tantalum nitride (Ta2N); hafnium nitride (HfN); a mixture of tungsten and tantalum (W—Ta); tungsten (W); and combinations thereof.
    Type: Application
    Filed: April 12, 2004
    Publication date: October 13, 2005
    Inventors: Leo Schowalter, Glen Slack
  • Patent number: 6770135
    Abstract: A method and apparatus for producing bulk single crystals of AlN includes a crystal growth enclosure with Al and N2 source material therein, capable of forming bulk crystals. The apparatus maintains the N2 partial pressure at greater than stoichiometric pressure relative to the Al within the crystal growth enclosure, while maintaining the total vapor pressure in the crystal growth enclosure at super-atmospheric pressure. At least one nucleation site is provided in the crystal growth enclosure, and provision is made for cooling the nucleation site relative to other locations in crystal growth enclosure. The Al and N2 vapor is then deposited to grow single crystalline AlN at the nucleation site.
    Type: Grant
    Filed: December 20, 2002
    Date of Patent: August 3, 2004
    Assignee: Crystal IS, Inc.
    Inventors: Leo J. Schowalter, Glen A. Slack, J. Carlos Rojo
  • Patent number: 6719843
    Abstract: A crucible for growing III-nitride (e.g., aluminum nitride) single crystals is provided. The crucible includes an elongated wall structure defining an interior crystal growth cavity. The crucible includes a plurality of tungsten grains and a wall thickness of at least about 1.5 times the average tungsten grain size. In particular embodiments, the crucible includes first and second layers of tungsten grains the first layer including grains forming an inside surface thereof and the second layer being superposed with the first layer. The crucible may be machined from a bar, plate, or billet of powder metallurgy tungsten.
    Type: Grant
    Filed: September 20, 2002
    Date of Patent: April 13, 2004
    Assignee: Crystal Is, Inc.
    Inventors: Leo J. Schowalter, Glen A. Slack
  • Publication number: 20030168003
    Abstract: A method and apparatus for producing bulk single crystals of AlN includes a crystal growth enclosure with Al and N2 source material therein, capable of forming bulk crystals. The apparatus maintains the N2 partial pressure at greater than stoichiometric pressure relative to the Al within the crystal growth enclosure, while maintaining the total vapor pressure in the crystal growth enclosure at super-atmospheric pressure. At least one nucleation site is provided in the crystal growth enclosure, and provision is made for cooling the nucleation site relative to other locations in crystal growth enclosure. The Al and N2 vapor is then deposited to grow single crystalline AlN at the nucleation site.
    Type: Application
    Filed: December 20, 2002
    Publication date: September 11, 2003
    Inventors: Leo J. Schowalter, Glen A. Slack, J. Carlos Rojo
  • Publication number: 20030127044
    Abstract: A crucible for growing III-nitride (e.g., aluminum nitride) single crystals is provided. The crucible includes an elongated wall structure defining an interior crystal growth cavity. The crucible includes a plurality of tungsten grains and a wall thickness of at least about 1.5 times the average tungsten grain size. In particular embodiments, the crucible includes first and second layers of tungsten grains the first layer including grains forming an inside surface thereof and the second layer being superposed with the first layer. The crucible may be machined from a bar, plate, or billet of powder metallurgy tungsten.
    Type: Application
    Filed: September 20, 2002
    Publication date: July 10, 2003
    Inventors: Leo J. Schowalter, Glen A. Slack
  • Patent number: 6188011
    Abstract: The present invention allows optimum filling of cavities or cages typically found in crystal lattice type structures associated with an inclusion complex such as formed by clathrate compounds. Filling such cavities or cages in the associated crystal lattice type structure provides semiconductor materials which are particularly beneficial for use in fabricating thermoelectric devices for electrical power generation and/or cooling applications. By filling the cavities or cages associated with clathrate compounds with selected metal and/or semi-metal atoms, reductions in thermal conductivity may be optimized while at the same time minimizing any reduction in electrical properties of the resulting semiconductor materials. As a result, the thermoelectric Figure of Merit for a thermoelectric device fabricated from such clathrate compounds is maximized.
    Type: Grant
    Filed: January 18, 1999
    Date of Patent: February 13, 2001
    Assignee: Marlow Industries, Inc.
    Inventors: George S. Nolas, Glen A. Slack
  • Patent number: 4239502
    Abstract: A silver-manganese-zirconium brazing alloy with a high percentage of silver at least exceeding 80 percent is used in a process for fabricating strong, high thermal conductivity bonds between diamond or cubic boron nitride (CBN) and a molybdenum or tungsten support member. Typical diamond or CBN-alloy-metal products with the improved alloy bond are semiconductor device heat sinks, grinding wheels and tools.
    Type: Grant
    Filed: November 17, 1978
    Date of Patent: December 16, 1980
    Assignee: General Electric Company
    Inventors: Glen A. Slack, Warren S. Knapp