Patents by Inventor Francis McDermott
Francis McDermott 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).
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Patent number: 11944728Abstract: An air treatment device includes a housing and a pad holder mounted within the housing. The pad holder has an opening providing access to a support surface for a scented pad. When positioned on the support surface the scented pad has a first end portion remote from the opening and a second end portion adjacent the opening. A mechanism associated with the pad holder is configured to at least partially remove the scented pad from the pad holder. The mechanism includes a lever arm and a pad pusher connected to the lever arm. The lever arm is configured such that movement of the lever arm pushes the pad pusher along the support surface toward the opening, the pad pusher engaging the first end portion of the scented pad and moving the second end portion of the scented pad at least partially out of the pad holder opening.Type: GrantFiled: February 19, 2021Date of Patent: April 2, 2024Assignee: Helen of Troy LimitedInventors: Jeffrey Samuel Jackson, Patrick Francis McDermott
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Publication number: 20220265885Abstract: An air treatment device includes a housing and a pad holder mounted within the housing. The pad holder has an opening providing access to a support surface for a scented pad. When positioned on the support surface the scented pad has a first end portion remote from the opening and a second end portion adjacent the opening. A mechanism associated with the pad holder is configured to at least partially remove the scented pad from the pad holder. The mechanism includes a lever arm and a pad pusher connected to the lever arm. The lever arm is configured such that movement of the lever arm pushes the pad pusher along the support surface toward the opening, the pad pusher engaging the first end portion of the scented pad and moving the second end portion of the scented pad at least partially out of the pad holder opening.Type: ApplicationFiled: February 19, 2021Publication date: August 25, 2022Inventors: Jeffrey Samuel Jackson, Patrick Francis McDermott
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Publication number: 20220156620Abstract: The disclosed technology is directed to systems and methods for deterministic reset of superconducting qubit and cavity modes with a microwave photon counter. The system comprises a multiplicity of qubit-microwave photon counter pairs coupled by a qubit-qubit coupling. Each of the qubit-microwave photon counter pairs comprise a qubit circuit, a microwave photon counter circuit, and a resonant cavity coupling the qubit circuit and the microwave photon counter circuit.Type: ApplicationFiled: November 19, 2020Publication date: May 19, 2022Inventors: Robert Francis McDermott, III, Alexander M. Opremcak
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Patent number: 10789123Abstract: A quantum computer architecture employs logical qubits that are constructed from a concatenation of doubly periodic Josephson junction circuits. The series concatenation of the doubly periodic Josephson junction circuits provides exponential robustness against local noise. It is possible to perform discrete Clifford group rotations and entangling operations on the logical qubits without leaving the protected state.Type: GrantFiled: April 18, 2019Date of Patent: September 29, 2020Assignee: Wisconsin Alumni Research FoundationInventors: Lev Ioffe, Lara Faoro, Robert Francis McDermott
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Publication number: 20200250564Abstract: A system and method for controlling superconducting qubits is provided. In some aspects the method includes assembling, using a controller of a quantum computing system, a pulse subsequence that comprises pairs of voltage pulses timed symmetrically with respect to a period corresponding to a qubit frequency of a superconducting qubit in the quantum computing system. The method also includes generating, using the controller, a pulse sequence using a repetition of a pulse subsequence. The method further includes controlling the superconducting qubit by applying the pulse sequence to the superconducting qubit using a single flux quantum (“SFQ”) driver coupled thereto.Type: ApplicationFiled: February 1, 2019Publication date: August 6, 2020Inventors: Kangbo Li, Robert Francis McDermott, III, Maxim George Vavilov
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Patent number: 10726351Abstract: A system and method for controlling superconducting qubits is provided. In some aspects the method includes assembling, using a controller of a quantum computing system, a pulse subsequence that comprises pairs of voltage pulses timed symmetrically with respect to a period corresponding to a qubit frequency of a superconducting qubit in the quantum computing system. The method also includes generating, using the controller, a pulse sequence using a repetition of a pulse subsequence. The method further includes controlling the superconducting qubit by applying the pulse sequence to the superconducting qubit using a single flux quantum (“SFQ”) driver coupled thereto.Type: GrantFiled: February 1, 2019Date of Patent: July 28, 2020Assignee: Wisconsin Alumni Research FoundationInventors: Kangbo Li, Robert Francis McDermott, III, Maxim George Vavilov
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Publication number: 20190324846Abstract: A quantum computer architecture employs logical qubits that are constructed from a concatenation of doubly periodic Josephson junction circuits. The series concatenation of the doubly periodic Josephson junction circuits provides exponential robustness against local noise. It is possible to perform discrete Clifford group rotations and entangling operations on the logical qubits without leaving the protected state.Type: ApplicationFiled: April 18, 2019Publication date: October 24, 2019Inventors: Lev Ioffe, Lara Faoro, Robert Francis McDermott
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Patent number: 9692423Abstract: A system for quantum computation and a readout method using the same are provided. In some aspects, the system includes at least one qubit circuit coupled to a resonant cavity, wherein each of the at least one qubit circuit is described by multiple quantum states, and a controller configured to provide microwave irradiation to the resonant cavity such that a quantum state information of the at least one qubit circuit is transferred to a resonant cavity occupation. The system also includes a readout circuit, coupled to the resonant cavity, configured to receive signals corresponding to the resonant cavity occupation, and generate an output indicative of the quantum states of the at least one qubit circuit. Optionally, the system further includes at least one single flux quantum (“SFQ”) circuit coupled to the readout circuit and configured to receive the output therefrom.Type: GrantFiled: December 29, 2014Date of Patent: June 27, 2017Assignees: Wisconsin Alumni Research Foundation, UNIVERSITAET DES SAARLANDESInventors: Robert Francis McDermott, III, Britton Louis Thomas Plourde, Maxim George Vavilov, Frank Karsten Wilhelm-Mauch, Luke Colin Gene Govia, Emily Joy Pritchett
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Patent number: 9490112Abstract: A system and method for characterizing incident ions are provided. The method includes positioning a transmission line detector to receive incident ions, the transmission line detector comprising a superconducting meandering wire defining a detection area for incident ions, and applying a bias current to the transmission line detector. The method also includes detecting a first signal produced in the transmission line detector due to an ion impacting the detection area, and detecting a second signal produced in the transmission line detector due to the ion impacting the detection area. The method further includes analyzing the first signal and the second signal to characterize the ion. In some aspects, the method further includes identifying a delay between the first signal and the second signal to determine, using the identified delay, a location of the ion on the detection area.Type: GrantFiled: March 6, 2015Date of Patent: November 8, 2016Inventors: Robert Francis McDermott, III, Joseph Robert Suttle
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Publication number: 20160260596Abstract: A system and method for characterizing incident ions are provided. The method includes positioning a transmission line detector to receive incident ions, the transmission line detector comprising a superconducting meandering wire defining a detection area for incident ions, and applying a bias current to the transmission line detector. The method also includes detecting a first signal produced in the transmission line detector due to an ion impacting the detection area, and detecting a second signal produced in the transmission line detector due to the ion impacting the detection area. The method further includes analyzing the first signal and the second signal to characterize the ion. In some aspects, the method further includes identifying a delay between the first signal and the second signal to determine, using the identified delay, a location of the ion on the detection area.Type: ApplicationFiled: March 6, 2015Publication date: September 8, 2016Inventors: Robert Francis McDermott III, Joseph Robert Suttle
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Patent number: 9437800Abstract: Systems and methods for suppressing magnetically active surface defects in superconducting quantum circuits are provided. A method includes providing one or more superconducting quantum circuits, and arranging the one or more superconducting quantum circuits in a hermetic enclosure capable of isolating the one or more superconducting circuits from ambient surroundings. The method also includes controlling an environment in the hermetic enclosure to suppress magnetically active surface defects associated with the one or more superconducting quantum circuits. In some aspects, the method further includes introducing an inert gas into the hermetic enclosure to passivate a surface of the one or more superconducting quantum circuits. In other aspects, the method further includes coating a surface of the one or more superconducting circuits with a non-magnetic encapsulation layer. In yet other aspects, the method further includes irradiating the one or more superconducting circuits using ultraviolet light.Type: GrantFiled: February 26, 2015Date of Patent: September 6, 2016Assignee: Wisconsin Alumni Research FoundationInventors: Robert Francis McDermott, III, Pradeep Kumar
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Publication number: 20160254434Abstract: Systems and methods for suppressing magnetically active surface defects in superconducting quantum circuits are provided. A method includes providing one or more superconducting quantum circuits, and arranging the one or more superconducting quantum circuits in a hermetic enclosure capable of isolating the one or more superconducting circuits from ambient surroundings. The method also includes controlling an environment in the hermetic enclosure to suppress magnetically active surface defects associated with the one or more superconducting quantum circuits. In some aspects, the method further includes introducing an inert gas into the hermetic enclosure to passivate a surface of the one or more superconducting quantum circuits. In other aspects, the method further includes coating a surface of the one or more superconducting circuits with a non-magnetic encapsulation layer. In yet other aspects, the method further includes irradiating the one or more superconducting circuits using ultraviolet light.Type: ApplicationFiled: February 26, 2015Publication date: September 1, 2016Inventors: Robert Francis McDermott III, Pradeep Kumar
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Patent number: 9425804Abstract: A system and methods for controlling superconducting quantum circuits are provided. The system includes at least one superconducting quantum circuit described by multiple quantum states, and at least one single flux quantum (“SFQ”) control circuit configured to generate a voltage pulse sequence that includes a plurality of voltage pulses temporally separated by a pulse-to-pulse spacing timed to a resonance period. The system also includes at least one coupling between the at least one superconducting quantum circuit and the at least one SFQ control circuit configured to transmit the voltage pulse sequence generated using the SFQ control circuit to the at least one superconducting quantum circuit. In some aspects, the system further includes a controller system configured to optimize the pulse-to-pulse spacing to minimize a gate infidelity due to at least one of a timing error, a timing jitter and a weak qubit anharmonicity.Type: GrantFiled: June 6, 2014Date of Patent: August 23, 2016Assignee: Wisconsin Alumni Research FoundationInventors: Robert Francis McDermott, III, Maxim G. Vavilov
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Publication number: 20160191060Abstract: A system for quantum computation and a readout method using the same are provided. In some aspects, the system includes at least one qubit circuit coupled to a resonant cavity, wherein each of the at least one qubit circuit is described by multiple quantum states, and a controller configured to provide microwave irradiation to the resonant cavity such that a quantum state information of the at least one qubit circuit is transferred to a resonant cavity occupation. The system also includes a readout circuit, coupled to the resonant cavity, configured to receive signals corresponding to the resonant cavity occupation, and generate an output indicative of the quantum states of the at least one qubit circuit. Optionally, the system further includes at least one single flux quantum (“SFQ”) circuit coupled to the readout circuit and configured to receive the output therefrom.Type: ApplicationFiled: December 29, 2014Publication date: June 30, 2016Inventors: Robert Francis McDermott, III, Britton Louis Thomas Plourde, Maxim George Vavilov, Frank Karsten Wilhelm-Mauch, Luke Colin Gene Govia, Emily Joy Pritchett
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Publication number: 20150358022Abstract: A system and methods for controlling superconducting quantum circuits are provided. The system includes at least one superconducting quantum circuit described by multiple quantum states, and at least one single flux quantum (“SFQ”) control circuit configured to generate a voltage pulse sequence that includes a plurality of voltage pulses temporally separated by a pulse-to-pulse spacing timed to a resonance period. The system also includes at least one coupling between the at least one superconducting quantum circuit and the at least one SFQ control circuit configured to transmit the voltage pulse sequence generated using the SFQ control circuit to the at least one superconducting quantum circuit. In some aspects, the system further includes a controller system configured to optimize the pulse-to-pulse spacing to minimize a gate infidelity due to at least one of a timing error, a timing jitter and a weak qubit anharmonicity.Type: ApplicationFiled: June 6, 2014Publication date: December 10, 2015Inventors: Robert Francis McDermott, III, Maxim G. Vavilov
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Patent number: 8861619Abstract: A system and method for operating an amplifier system is provided. The amplifier system includes an input providing a direct coupling configured to receive a high-frequency input signal having a frequency in at least one of a radiofrequency (RF) and microwave range. The amplifier system also includes an amplifier including a dielectric material separating at least two superconducting layers forming an amplifier loop configured to receive the high-frequency input signal and deliver an amplified signal. The amplifier system includes an output providing a direct coupling configured to deliver the amplified signal.Type: GrantFiled: August 16, 2011Date of Patent: October 14, 2014Assignee: Wisconsin Alumni Research FoundationInventors: Robert Francis McDermott, David Hover, Guilhem Jean-Antoine Ribeill, Yung-Fu Chen
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Publication number: 20130043945Abstract: A system and method for operating an amplifier system is provided. The amplifier system includes an input providing a direct coupling configured to receive a high-frequency input signal having a frequency in at least one of a radiofrequency (RF) and microwave range. The amplifier system also includes an amplifier including a dielectric material separating at least two superconducting layers forming an amplifier loop configured to receive the high-frequency input signal and deliver an amplified signal. The amplifier system includes an output providing a direct coupling configured to deliver the amplified signal.Type: ApplicationFiled: August 16, 2011Publication date: February 21, 2013Inventors: Robert Francis McDermott, David Hover, Guilhem Jean-Antoine Ribeill, Yung-Fu Chen
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Publication number: 20070221223Abstract: A meter for visual determination of proper oxygen or gas flow to a facemask or cannula from a pressurized gas supply. The device features a body with a central cavity extending axially therein adapted for translation of a piston biased toward an incoming gas stream from the pressurized supply. A cup-shaped endwall of the piston increases the area on which the incoming air stream acts. The incoming air stream is focused to impact a center portion of the endwall at a higher rate of speed using a narrowing incoming conduit resulting in increased force and translation of the piston even under the low pressures in which cannulas operate. The piston translates to a point where it may be viewed alone or adjacent to indica to ascertain proper oxygen flow to the user, by a caretaker from a distance.Type: ApplicationFiled: September 14, 2006Publication date: September 27, 2007Inventors: Francis McDermott, Richard G. Campbell
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Patent number: 6632654Abstract: An elongate canister having a generally rectangular cross-section sized to house a plurality of antibiotic susceptibility test arrays stacked one atop another and maintained secure within an environmentally controlled inventory chamber in a random access microbiological analyzer.Type: GrantFiled: August 8, 2001Date of Patent: October 14, 2003Assignee: Dade Microscan Inc.Inventors: Peter Louis Gebrian, Allan Lee Cameron, Alan Christopher Mudd, Patrick Francis McDermott, Adrian Mark Thomas West
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Publication number: 20020155590Abstract: An elongate canister having a generally rectangular cross-section sized to house a plurality of antibiotic susceptibility test arrays stacked one atop another and maintained secure within an environmentally controlled inventory chamber in a random access microbiological analyzer.Type: ApplicationFiled: April 24, 2001Publication date: October 24, 2002Applicant: Dade Behring Inc.Inventors: Peter Louis Gebrian, Allan Lee Cameron, Alan Christopher Mudd, Patrick Francis McDermott, Adrian Mark Thomas West