Patents by Inventor Galan Gregory Moore

Galan Gregory Moore 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: 11204280
    Abstract: A method for determining crystal phases of a glass ceramic sample, including the steps of applying energy to the sample using an excitation source, detecting raw Raman spectral energy that is given off by the sample using a detector, wherein the raw Raman spectral energy includes peak values, determining a plurality of predetermined energy peaks based off a composition of the sample, superimposing the plurality of predetermined energy peaks over the raw Raman spectral energy, applying a baseline value between each predetermined energy peak, subtracting the baseline value from the raw Raman spectral energy, calculating corrected peak values based on the raw Raman spectral energy and baseline value, and determining the crystal phases of the glass ceramic sample based on the corrected peak values.
    Type: Grant
    Filed: February 28, 2020
    Date of Patent: December 21, 2021
    Assignee: CORNING INCORPORATED
    Inventors: Chong Pyung An, Ryan Claude Andrews, Galan Gregory Moore, Rohit Rai, Erika Lynn Stapleton, Ljerka Ukrainczyk
  • Publication number: 20210238083
    Abstract: A glass ceramic article including a lithium disilicate crystalline phase, a petalite crystalline phased, and a residual glass phase. The glass ceramic article has a warp (?m)<(3.65×10?9/?m×diagonal2) where diagonal is a diagonal measurement of the glass ceramic article in ?m, a stress of less than 30 nm of retardation per mm of glass ceramic article thickness, a haze (%)<0.0994t+0.12 where t is the thickness of the glass ceramic article in mm, and an optical transmission (%)>0.91×10(2?0.03t) of electromagnetic radiation wavelengths from 450 nm to 800 nm, where t is the thickness of the glass ceramic article in mm.
    Type: Application
    Filed: April 22, 2021
    Publication date: August 5, 2021
    Applicant: CORNING INCORPORATED
    Inventors: Carol Ann Click, James Howard Edmonston, Qiang Fu, Jill Marie Hall, Mathieu Gerard Jacques Hubert, Dhananjay Joshi, Andrew Peter Kittleson, Katherine Weber Kroemer, Galan Gregory Moore, Rohit Rai, John Richard Ridge, John Robert Saltzer, JR., Charlene Marie Smith, Erika Lynn Stapleton, Matthew Daniel Trosa, Ljerka Ukrainczyk, Shelby Kerin Wilson, Bin Yang, Zheming Zheng
  • Patent number: 11053159
    Abstract: An article includes SiO2 from about 40 mol % to about 80 mol %, Al2O3 from about 1 mol % to about 20 mol %, B2O3 from about 3 mol % to about 50 mol %, WO3 plus MoO3 from about 1 mol % to about 18 mol % and at least one of: (i) Au from about 0.001 mol % to about 0.5 mol %, (ii) Ag from about 0.025 mol % to about 1.5 mol %, and (iii) Cu from about 0.03 mol % to about 1 mol %, and R2O from about 0 mol % to about 15 mol %. The R2O is one or more of Li2O, Na2O, K2O, Rb2O and Cs2O. R2O minus Al2O3 ranges from about ?12 mol % to about 3.8 mol %.
    Type: Grant
    Filed: November 14, 2018
    Date of Patent: July 6, 2021
    Assignee: Corning Incorporated
    Inventors: Matthew John Dejneka, Jesse Kohl, Stephan Lvovich Logunov, Galan Gregory Moore
  • Patent number: 11014848
    Abstract: A glass ceramic article including a lithium disilicate crystalline phase, a petalite crystalline phased, and a residual glass phase. The glass ceramic article has a warp (?m)<(3.65×10?9/?m×diagonal2) where diagonal is a diagonal measurement of the glass ceramic article in ?m, a stress of less than 30 nm of retardation per mm of glass ceramic article thickness, a haze (%)<0.0994t +0.12 where t is the thickness of the glass ceramic article in mm, and an optical transmission (%)>0.91×10(2-0.03t) of electromagnetic radiation wavelengths from 450 nm to 800 nm, where t is the thickness of the glass ceramic article in mm.
    Type: Grant
    Filed: July 12, 2019
    Date of Patent: May 25, 2021
    Assignee: CORNING INCORPORATED
    Inventors: Carol Ann Click, James Howard Edmonston, Qiang Fu, Jill Marie Hall, Mathieu Gerard Jacques Hubert, Dhananjay Joshi, Andrew Peter Kittleson, Katherine Weber Kroemer, Galan Gregory Moore, Rohit Rai, John Richard Ridge, John Robert Saltzer, Jr., Charlene Marie Smith, Erika Lynn Stapleton, Matthew Daniel Trosa, Ljerka Ukrainczyk, Shelby Kerin Wilson, Bin Yang, Zheming Zheng
  • Publication number: 20200278254
    Abstract: A method for determining crystal phases of a glass ceramic sample, including the steps of applying energy to the sample using an excitation source, detecting raw Raman spectral energy that is given off by the sample using a detector, wherein the raw Raman spectral energy includes peak values, determining a plurality of predetermined energy peaks based off a composition of the sample, superimposing the plurality of predetermined energy peaks over the raw Raman spectral energy, applying a baseline value between each predetermined energy peak, subtracting the baseline value from the raw Raman spectral energy, calculating corrected peak values based on the raw Raman spectral energy and baseline value, and determining the crystal phases of the glass ceramic sample based on the corrected peak values.
    Type: Application
    Filed: February 28, 2020
    Publication date: September 3, 2020
    Inventors: Chong Pyung An, Ryan Claude Andrews, Galan Gregory Moore, Rohit Rai, Erika Lynn Stapleton, Ljerka Ukrainczyk
  • Publication number: 20200017398
    Abstract: A glass ceramic article including a lithium disilicate crystalline phase, a petalite crystalline phased, and a residual glass phase. The glass ceramic article has a warp (?m)<(3.65×10?6/?m×diagonal2) where diagonal is a diagonal measurement of the glass ceramic article in ?m, a stress of less than 30 nm of retardation per mm of glass ceramic article thickness, a haze (%)<0.0994t+0.12 where t is the thickness of the glass ceramic article in mm, and an optical transmission (%)>0.91×10(2-0.03t) of electromagnetic radiation wavelengths from 450 nm to 800 nm, where t is the thickness of the glass ceramic article in mm.
    Type: Application
    Filed: July 12, 2019
    Publication date: January 16, 2020
    Applicant: CORNING INCORPORATED
    Inventors: Carol Ann Click, James Howard Edmonston, Qiang Fu, Jill Marie Hall, Mathieu Gerard Jacques Hubert, Dhananjay Joshi, Andrew Peter Kittleson, Katherine Weber Kroemer, Galan Gregory Moore, Rohit Rai, John Richard Ridge, John Robert Saltzer, JR., Charlene Marie Smith, Erika Lynn Stapleton, Matthew Daniel Trosa, Ljerka Ukrainczyk, Shelby Kerin Wilson, Bin Yang, Zheming Zheng
  • Patent number: 10399882
    Abstract: A method of processing a glass material includes guiding and/or focusing light from a light source to glass material in a hot stage of a processing system, where the light source provides light at a wavelength ? that interacts with crystals that may be formed in the glass material. The method includes collecting and/or guiding light directed from the glass material in the hot stage to a wavelength separator, and separating the light directed from the glass material to provide a spectrum ? having wavelengths that are within about twenty nanometers of the wavelength ?. The method includes observing with a detector light of the spectrum ? to identify nano-scale shifts in the wavelength ? caused by interaction with crystals, if present, within the glass material in the hot stage of the processing system.
    Type: Grant
    Filed: September 7, 2017
    Date of Patent: September 3, 2019
    Assignee: CORNING INCORPORATED
    Inventors: Sara Ann Cole, Galan Gregory Moore
  • Publication number: 20190177206
    Abstract: An article includes SiO2 from about 40 mol % to about 80 mol %, Al2O3 from about 1 mol % to about 20 mol %, B2O3 from about 3 mol % to about 50 mol %, WO3 plus MoO3 from about 1 mol % to about 18 mol % and at least one of: (i) Au from about 0.001 mol % to about 0.5 mol %, (ii) Ag from about 0.025 mol % to about 1.5 mol %, and (iii) Cu from about 0.03 mol % to about 1 mol %, and R2O from about 0 mol % to about 15 mol %. The R2O is one or more of Li2O, Na2O, K2O, Rb2O and Cs2O. R2O minus Al2O3 ranges from about ?12 mol % to about 3.8 mol %.
    Type: Application
    Filed: November 14, 2018
    Publication date: June 13, 2019
    Inventors: Matthew John Dejneka, Jesse Kohl, Stephan Lvovich Logunov, Galan Gregory Moore
  • Publication number: 20180009694
    Abstract: A method of processing a glass material includes guiding and/or focusing light from a light source to glass material in a hot stage of a processing system, where the light source provides light at a wavelength ? that interacts with crystals that may be formed in the glass material. The method includes collecting and/or guiding light directed from the glass material in the hot stage to a wavelength separator, and separating the light directed from the glass material to provide a spectrum ? having wavelengths that are within about twenty nanometers of the wavelength ?. The method includes observing with a detector light of the spectrum ? to identify nano-scale shifts in the wavelength ? caused by interaction with crystals, if present, within the glass material in the hot stage of the processing system.
    Type: Application
    Filed: September 7, 2017
    Publication date: January 11, 2018
    Inventors: Sara Ann Cole, Galan Gregory Moore
  • Patent number: 9783445
    Abstract: A method of processing a glass material includes guiding and/or focusing light from a light source to glass material in a hot stage of a processing system, where the light source provides light at a wavelength ? that interacts with crystals that may be formed in the glass material. The method includes collecting and/or guiding light directed from the glass material in the hot stage to a wavelength separator, and separating the light directed from the glass material to provide a spectrum ? having wavelengths that are within about twenty nanometers of the wavelength ?. The method includes observing with a detector light of the spectrum ? to identify nano-scale shifts in the wavelength ? caused by interaction with crystals, if present, within the glass material in the hot stage of the processing system.
    Type: Grant
    Filed: July 27, 2016
    Date of Patent: October 10, 2017
    Assignee: Corning Incorporated
    Inventors: Sara Ann Cole, Galan Gregory Moore
  • Publication number: 20170241863
    Abstract: Optical techniques for determining thermal properties of materials are described. Optical techniques include Raman scattering and thermal properties include relative length change and coefficient of thermal expansion. Correlations of features of bands observed in the Raman spectra of several glasses with thermal properties of the glasses are demonstrated. The technique provides a convenient method for determining thermal expansion properties of materials.
    Type: Application
    Filed: February 6, 2017
    Publication date: August 24, 2017
    Inventors: Nicholas Francis Borrelli, Kenneth Edward Hrdina, Galan Gregory Moore, Lisa Anne Tietz Moore