Patents by Inventor Patrick M. Lenahan

Patrick M. Lenahan 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: 9810756
    Abstract: A sensing apparatus for detecting and determining the magnitude of a static magnetic field has a first set of coils capable of producing a sweeping, quasi static, magnetic field when driven by a direct current and a second set of coils, for magnetic field modulation, positioned between the first set of coils capable of producing a low-frequency (audio), oscillating magnetic field when driven by an oscillating current. The magnetic fields induce a current through the semiconductor device which sampled to identify changes as a function of sweeping, quasi static magnetic field. To create an apparatus for detecting and identifying atomic scale defects in fully processed devices, a radio frequency circuit with a resonant component is added which provides an oscillating electromagnetic field in a direction perpendicular to that of the static magnetic field produced by the first set of coils.
    Type: Grant
    Filed: October 10, 2013
    Date of Patent: November 7, 2017
    Assignee: The Penn State Research Foundation
    Inventors: Corey Cochrane, Patrick M. Lenahan
  • Patent number: 9507004
    Abstract: An electron spin resonance spectrometer includes a bridge to transmit an excitation frequency and to receive a signal frequency; a probe electrically connected to the bridge and comprising: a first conductor in electrical communication with the bridge to transmit the signal frequency to the bridge; a shorting member electrically connected to the first conductor to transmit the excitation frequency to a sample, to produce the signal frequency, and to transmit the signal frequency to the first conductor; and a second conductor electrically connected to the shorting member; and a magnet disposed proximate to the probe.
    Type: Grant
    Filed: April 3, 2014
    Date of Patent: November 29, 2016
    Assignees: THE GOVERNMENT OF THE UNITED STATES OF AMERICA, AS REPRESENTED BY THE SECRETARY OF COMMERCE, THE PENN STATE RESEARCH FOUNDATION
    Inventors: Jason P. Campbell, Kin P. Cheung, Jason T Ryan, Patrick M. Lenahan
  • Publication number: 20140247048
    Abstract: A sensing apparatus for detecting and determining the magnitude of a static magnetic field has a first set of coils capable of producing a sweeping, quasi static, magnetic field when driven by a direct current and a second set of coils, for magnetic field modulation, positioned between the first set of coils capable of producing a low-frequency (audio), oscillating magnetic field when driven by an oscillating current. The magnetic fields induce a current through the semiconductor device which sampled to identify changes as a function of sweeping, quasi static magnetic field. To create an apparatus for detecting and identifying atomic scale defects in fully processed devices, a radio frequency circuit with a resonant component is added which provides an oscillating electromagnetic field in a direction perpendicular to that of the static magnetic field produced by the first set of coils.
    Type: Application
    Filed: October 10, 2013
    Publication date: September 4, 2014
    Applicant: THE PENN STATE RESEARCH FOUNDATION
    Inventors: Corey Cochrane, Patrick M. Lenahan
  • Publication number: 20140210473
    Abstract: An electron spin resonance spectrometer includes a bridge to transmit an excitation frequency and to receive a signal frequency; a probe electrically connected to the bridge and comprising: a first conductor in electrical communication with the bridge to transmit the signal frequency to the bridge; a shorting member electrically connected to the first conductor to transmit the excitation frequency to a sample, to produce the signal frequency, and to transmit the signal frequency to the first conductor; and a second conductor electrically connected to the shorting member; and a magnet disposed proximate to the probe.
    Type: Application
    Filed: April 3, 2014
    Publication date: July 31, 2014
    Applicant: NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY
    Inventors: JASON P. CAMPBELL, KIN P. CHEUNG, JASON T. RYAN, PATRICK M. LENAHAN
  • Patent number: 8410780
    Abstract: This method of adaptive signal averaging is used to enhance the signal to noise ratio of magnetic resonance and other analytical measurements which involve repeatable signals partially or completely obscured by noise in a single measurement at a rate much faster than that observed with conventional signal averaging. This technique expedites the signal averaging process because it filters each individual scan in real time with an adaptive algorithm and then averages them separately to provide an averaged filtered signal with less noise. This technique is particularly useful for any type of continuous wave magnetic resonance experiment or any other noisy measurement where signal averaging is utilized.
    Type: Grant
    Filed: September 10, 2009
    Date of Patent: April 2, 2013
    Assignee: The Penn State Research Foundation
    Inventors: Corey Cochrane, Patrick M. Lenahan
  • Publication number: 20100066366
    Abstract: This method of adaptive signal averaging is used to enhance the signal to noise ratio of magnetic resonance and other analytical measurements which involve repeatable signals partially or completely obscured by noise in a single measurement at a rate much faster than that observed with conventional signal averaging. This technique expedites the signal averaging process because it filters each individual scan in real time with an adaptive algorithm and then averages them separately to provide an averaged filtered signal with less noise. This technique is particularly useful for any type of continuous wave magnetic resonance experiment or any other noisy measurement where signal averaging is utilized.
    Type: Application
    Filed: September 10, 2009
    Publication date: March 18, 2010
    Applicant: The Penn State Research Foundation
    Inventors: Corey Cochrane, Patrick M. Lenahan
  • Patent number: 4652467
    Abstract: A method of coating a substrate with a thin film of a polymer of predetermined porosity comprises depositing the thin film on the substrate from a non-gelled solution comprising at least one hydrolyzable metal alkoxide of a polymeric network forming cation, water, an alcohol compatible with the hydrolysis and the polymerization of the metal alkoxide, and an acid or a base, prior to depositing the film, controlling the structure of the polymer for a given composition of the solution exclusive of the acid or base component and the water component, (a) by adjusting each of the water content, the pH, and the temperature to obtain the desired concentration of alkoxide, and then adjusting the time of standing of the solution prior to lowering the temperature of the solution, and (b) lowering the temperature of the solution after the time of standing to about 15 degrees C.
    Type: Grant
    Filed: February 25, 1985
    Date of Patent: March 24, 1987
    Assignee: The United States of America as represented by the United States Department of Energy
    Inventors: C. Jeffrey Brinker, Keith D. Keefer, Patrick M. Lenahan