Patents by Inventor Alexei Orlov

Alexei Orlov 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: 20260024904
    Abstract: A device that produces spin waves includes a base substrate, a transducer that includes a first plane defined by a first magnetic film and a second plane defined by a plurality of metal strips, and a second magnetic film having a spin-wave phase velocity lower than the first magnetic film. The second magnetic film is adjacent to the first magnetic film, and the first plane and the second plane are parallel. The plurality of metal strips are configured to receive a first signal, such that the first signal excites a first spin wave in the first magnetic film. The second magnetic film is configured to produce a second spin wave having a wavelength shorter than the first spin wave.
    Type: Application
    Filed: September 26, 2025
    Publication date: January 22, 2026
    Inventors: Hadrian Aquino, Alexei Orlov, Gary H. Bernstein, Jonathan Chisum, David Connelly, Wolfgang Porod
  • Publication number: 20260012161
    Abstract: A method including, during time period A, in a computer storage element having first and second power inputs separated by an array of transistors configured for storing a computer bit of data, moving an input of the array of transistors a logic value “1” or “0” a master latch, during time period B, recovering at least a portion of energy comprising the input with a first clock, during a time period C, moving the input in the master latch to an isolation stage, during time period D, recovering at least a portion of energy comprising the input from the isolation stage with a second clock, during time period E, recovering at least a portion of energy comprising the input from a follower latch with a third clock, and during time period F, moving at least a portion of the input from the isolation stage to the follower latch.
    Type: Application
    Filed: June 21, 2023
    Publication date: January 8, 2026
    Inventors: Gregory Snider, Rene Celis-Cordova, Alexei Orlov, Tian Lu, Jason M. Kulick
  • Patent number: 12431602
    Abstract: A device that produces spin waves includes a base substrate, a transducer that includes a first plane defined by a first magnetic film and a second plane defined by a plurality of metal strips, and a second magnetic film having a spin-wave phase velocity lower than the first magnetic film. The second magnetic film is adjacent to the first magnetic film, and the first plane and the second plane are parallel. The plurality of metal strips are configured to receive a first signal, such that the first signal excites a first spin wave in the first magnetic film. The second magnetic film is configured to produce a second spin wave having a wavelength shorter than the first spin wave.
    Type: Grant
    Filed: March 17, 2023
    Date of Patent: September 30, 2025
    Assignee: University of Notre Dame du Lac
    Inventors: Hadrian Aquino, Alexei Orlov, Gary H. Bernstein, Jonathan Chisum, David Connelly, Wolfgang Porod
  • Publication number: 20250146877
    Abstract: An illustrative apparatus includes a first antenna suspended over a cavity at a first position and a first thermocouple connected to the first antenna. The first thermocouple supports the first antenna over the cavity and extends from the first antenna to a first location on an edge of the cavity. The apparatus further includes a second antenna suspended over the cavity at a second position different from the first position and a second thermocouple connected to the second antenna. The second thermocouple supports the second antenna over the cavity and extends from the second antenna to a second location on the edge of the cavity different than the first location.
    Type: Application
    Filed: February 24, 2023
    Publication date: May 8, 2025
    Inventors: Edward KINZEL, Gary BERNSTEIN, Wolfgang POROD, Alexei ORLOV, Gergo SZAKMANY
  • Publication number: 20230299451
    Abstract: A device that produces spin waves includes a base substrate, a transducer that includes a first plane defined by a first magnetic film and a second plane defined by a plurality of metal strips, and a second magnetic film having a spin-wave phase velocity lower than the first magnetic film. The second magnetic film is adjacent to the first magnetic film, and the first plane and the second plane are parallel. The plurality of metal strips are configured to receive a first signal, such that the first signal excites a first spin wave in the first magnetic film. The second magnetic film is configured to produce a second spin wave having a wavelength shorter than the first spin wave.
    Type: Application
    Filed: March 17, 2023
    Publication date: September 21, 2023
    Inventors: Hadrian Aquino, Alexei Orlov, Gary H. Bernstein, Jonathan Chisum, David Connelly, Wolfgang Porod
  • Patent number: 11488660
    Abstract: In a method computer storage element operation, first and second rising (or falling) clock edges are applied to first and second power inputs of the computer storage element having a transistor array between the first and second power inputs over time T1 whereupon a logic value applied to an input of the transistor array is stored therein. Thereafter, first and second falling (or rising) clock edges are applied to the first and second power inputs over time T2, whereupon part of an electrical charge or energy associated with the logic value stored in the transistor array is provided to circuitry that generates the first and/or second clock edge(s), wherein the value(s) of time T1 and/or time T2 is/are greater than a product of RC, where R is resistance associated with the computer storage element, and C is a load capacitance associated with the computer storage element.
    Type: Grant
    Filed: February 19, 2021
    Date of Patent: November 1, 2022
    Assignees: INDIANA INTEGRATED CIRCUITS, LLC, UNIVERSITY OF NOTRE DAME DU LAC
    Inventors: Gregory Snider, Rene Celis-Cordova, Alexei Orlov, Tian Lu, Jason M. Kulick
  • Publication number: 20210327496
    Abstract: In a method computer storage element operation, first and second rising (or falling) clock edges are applied to first and second power inputs of the computer storage element having a transistor array between the first and second power inputs over time T1 whereupon a logic value applied to an input of the transistor array is stored therein. Thereafter, first and second falling (or rising) clock edges are applied to the first and second power inputs over time T2, whereupon part of an electrical charge or energy associated with the logic value stored in the transistor array is provided to circuitry that generates the first and/or second clock edge(s), wherein the value(s) of time T1 and/or time T2 is/are greater than a product of RC, where R is resistance associated with the computer storage element, and C is a load capacitance associated with the computer storage element.
    Type: Application
    Filed: February 19, 2021
    Publication date: October 21, 2021
    Inventors: Gregory Snider, Rene Celis-Cordova, Alexei Orlov, Tian Lu, Jason M. Kulick
  • Patent number: 9577173
    Abstract: Nanoscale thermocouples are made of a single material and are shape-engineered to contain one or more variations in their width along their length. The mono-metallic nanowire junctions resulting from the width variation(s) exploit a difference in the Seebeck coefficient that is present at these size scales. Such devices have a wide variety of uses and can be coupled with an antenna in order to serve as an infrared detector.
    Type: Grant
    Filed: May 16, 2014
    Date of Patent: February 21, 2017
    Assignee: University of Notre Dame du Lac
    Inventors: Wolfgang Porod, Gary H. Bernstein, Alexei Orlov, Gergo P. Szakmany
  • Publication number: 20140338712
    Abstract: Nanoscale thermocouples are made of a single material and are shape-engineered to contain one or more variations in their width along their length. The mono-metallic nanowire junctions resulting from the width variation(s) exploit a difference in the Seebeck coefficient that is present at these size scales. Such devices have a wide variety of uses and can be coupled with an antenna in order to serve as an infrared detector.
    Type: Application
    Filed: May 16, 2014
    Publication date: November 20, 2014
    Applicant: University of Notre Dame du Lac
    Inventors: Wolfgang Porod, Gary H. Bernstein, Alexei Orlov, Gergo P. Szakmany