Patents by Inventor Thomas Torsten DR WINKLER

Thomas Torsten DR WINKLER 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: 20240331731
    Abstract: A method of writing voxels to a substrate using a laser writing system comprises forming a first voxel at a first position in a substrate using a first laser pulse; detecting light emitted or scattered by the substrate as a result of forming the first voxel; determining whether the detected light satisfies a predetermined constraint; and, when the detected light does not satisfy the predetermined constraint, adjusting an amplitude of a second laser pulse. Light emission or scattering from the substrate as a result of forming a voxel is related to the properties of the formed voxel. By monitoring such emission or scattering, it is made possible to compensate for variations in performance of the laser writing system. Also provided herein are a laser writing system and computer program product which implement the method.
    Type: Application
    Filed: March 31, 2023
    Publication date: October 3, 2024
    Applicant: Microsoft Technology Licensing, LLC
    Inventors: Masaaki SAKAKURA, Timothy John DEEGAN, Rokas DREVINSKAS, Thomas Torsten DR WINKLER, Daniel Jonathan Finchley CLETHEROE, Richard John BLACK, Patrick Neil ANDERSON, Austin Nicholas DONNELLY, Ioan Alexandru STEFANOVICI
  • Publication number: 20240331730
    Abstract: A method of writing data to a transparent substrate comprises forming a first voxel by focusing a first laser pulse on a first location in a transparent substrate; and forming a second voxel by focusing a second laser pulse on a second location in the transparent substrate. The first laser pulse and the second laser pulse have different amplitudes, resulting in the first and second voxels having different strengths. Also provided are a system useful for implementing the method; an optical data storage medium obtainable by the method; and a method of reading data from the optical data storage medium.
    Type: Application
    Filed: March 31, 2023
    Publication date: October 3, 2024
    Applicant: Microsoft Technology Licensing, LLC
    Inventors: Thomas Torsten DR WINKLER, Rokas DREVINSKAS, Ariel GOMEZ DIAZ, Charles Ernest WHITTAKER, Timothy John DEEGAN, James Hilton CLEGG, Daniel Jonathan Finchley CLETHEROE, Hugh David Paul WILLIAMS, Austin Nicholas DONNELLY, Richard John BLACK, Masaaki SAKAKURA, Teodora ILIEVA, Bridgette Rosanna Doris COOPER, Ioan Alexandru STEFANOVICI, Erika Blancada ARANAS, Pablo Rafael Andreas Wilke BERENGUER
  • Publication number: 20240331732
    Abstract: A method for forming birefringent voxels comprises simultaneously generating a first seed pulse and a first data pulse. The first seed pulse and the first data pulse are spatially-separated laser pulses having different amplitudes. The first seed pulse is focused at a first seed location, and the data pulse is focused at a first data location. The first seed location and the first data location are separated by a predetermined distance along a scan path, with the first seed location being ahead of the first data location. Subsequently, a second seed pulse and a second data pulse are generated, and focused at a second seed location and second data location, respectively. The second seed and data locations are separated by the predetermined distance. The second data location is the same as the first seed location, resulting in formation of a birefringent voxel.
    Type: Application
    Filed: March 31, 2023
    Publication date: October 3, 2024
    Applicant: Microsoft Technology Licensing, LLC
    Inventors: Masaaki SAKAKURA, Rokas DREVINSKAS, Daniel Jonathan Finchley CLETHEROE, Richard John BLACK, Austin Nicholas DONNELLY, Timothy John DEEGAN, James Hilton CLEGG, Philip Athelstan WAINMAN, Patrick Neil ANDERSON, Teodora ILIEVA, Thomas Torsten DR WINKLER, Pablo Rafael Andreas Wilke BERENGUER, Erika Blancada ARANAS, Bridgette Rosanna Doris COOPER, Ioan Alexandru STEFANOVICI
  • Publication number: 20230327391
    Abstract: Examples are disclosed that relate to efficiently producing multiple laser beams of a harmonic frequency from a fundamental frequency beam. One example provides a laser system comprising a laser configured to output a fundamental frequency beam, a first harmonic-generation stage, and a second harmonic-generation stage. The first harmonic-generation stage is configured to receive an input of the fundamental frequency beam from the laser, and output from the laser system a first-stage harmonic frequency beam and a first-stage residual fundamental frequency beam. The second harmonic-generation stage is configured to receive an input of the first-stage residual fundamental frequency beam, and to output from the laser system a second-stage harmonic frequency beam.
    Type: Application
    Filed: May 27, 2022
    Publication date: October 12, 2023
    Applicant: Microsoft Technology Licensing, LLC
    Inventors: Richard John BLACK, Rokas DREVINSKAS, Patrick Neil ANDERSON, Masaaki SAKAKURA, Thomas Torsten DR WINKLER, David LARA SAUCEDO