Josephson Junction Patents (Class 327/528)
-
Patent number: 8432163Abstract: The method for cancellation of low frequency noise in a magneto-resistive mixed sensor (1) comprising at least a superconducting loop with at least one constriction and at least one magneto-resistive element (6) comprises a set of measuring steps with at least one measuring step being conducted with the normal running of the mixed sensor and at least another measuring step being conducted whilst an additional super-current is temporarily injected in the at least one constriction of the at least one superconducting loop of the mixed sensor (1) up to a critical super-current of the constriction so that the result of the at least another measuring step is used as a reference level of the at least one magneto-resistive element (6).Type: GrantFiled: June 27, 2007Date of Patent: April 30, 2013Assignee: Commissariat a l'Energie Atomique et aux Energies AlternativesInventors: Claude Fermon, Hedwige Polovy, Myriam Pannetier-Lecoeur
-
Patent number: 8368789Abstract: Systems and methods for providing one or more reference currents with respective negative temperature coefficients are provided. A first voltage is divided to provide a divided voltage, which is compared to a reference voltage (e.g., a bandgap reference voltage) to provide a control voltage. The first voltage and the one or more reference currents are based on the control voltage.Type: GrantFiled: November 26, 2008Date of Patent: February 5, 2013Assignee: Aptina Imaging CorporationInventors: Chen Xu, Yaowu Mo
-
Publication number: 20120274494Abstract: A superconducting bandpass sigma-delta modulator and a method for analog-to-digital signal conversion is disclosed. The superconducting bandpass sigma-delta modulator includes coupled resonators having a desired impedance ratio. A first resonator connects to a comparator, which comparator generates single-flux-quantum pulses. A feedback loop links from the comparator to a second resonator and includes a current amplifier. A digital RF receiver system is also disclosed. This system includes a second order bandpass sigma-delta modulator, which has a desired impedance ratio between resonators and a feedback loop with current amplification. The system further has an antenna configured to receive a GHz frequency radio transmission and to yield an analog signal which is accepted by the sigma-delta modulator.Type: ApplicationFiled: December 16, 2010Publication date: November 1, 2012Applicant: HYPRES, INC.Inventor: Dmitri Kirichenko
-
Publication number: 20120157321Abstract: A superconducting circuit, and a method, are disclosed for generating pulses with stable frequency. The circuit includes an annular Long Josephson Junction (LJJ) capable of producing electrical pulses of a desired frequency due to a steady bias current applied to the LJJ. The circuit further includes an electrical interface for injecting an RF signal of a first frequency into the annular LJJ, resulting in the desired frequency locking onto the first frequency. Typically the first frequency substantially equals the desired frequency. The injection of the RF signal further results in the decrease of the frequency jitter of the desired frequency. The pulses generated in the loop section of the LJJ are outputted through a tail section of the LJJ, and through transmission lines which couple to the tail section.Type: ApplicationFiled: December 20, 2010Publication date: June 21, 2012Applicant: HYPRES, INC.Inventor: Dmitri Kirichenko
-
Patent number: 8174305Abstract: A ladder structure is ferromagnetically coupled to a first qubit where the ladder structure has a monostable energy potential in use, such that the first qubit and the ladder structure effectively operate as a single qubit. The ladder structure and first qubit may be coupled via a superconducting flux coupler. The ladder structure may be a chain of at least two ferromagnetically coupled ladder elements. A value for each ladder element may be less than about 1.Type: GrantFiled: March 13, 2009Date of Patent: May 8, 2012Assignee: D-Wave Systems Inc.Inventor: Richard G. Harris
-
Patent number: 8111083Abstract: One embodiment of the invention includes a quantum processor system. The quantum processor system includes a first resonator having a first characteristic frequency and a second resonator having a second characteristic frequency greater than the first characteristic frequency. A qubit cell is coupled to each of the first resonator and the second resonator. The qubit cell has a frequency tunable over a range of frequencies including the first characteristic frequency and the second characteristic frequency. A classical control mechanism is configured to tune the frequency of the qubit cell as to transfer quantum information between the first resonator and the second resonator.Type: GrantFiled: December 1, 2010Date of Patent: February 7, 2012Assignee: Northrop Grumman Systems CorporationInventors: Aaron A. Pesetski, James E. Baumgardner
-
Patent number: 8098179Abstract: A superconducting flux digital-to-analog converter includes a superconducting inductor ladder circuit. The ladder circuit includes a plurality of closed superconducting current paths that each includes at least two superconducting inductors coupled in series to form a respective superconducting loop, successively adjacent or neighboring superconducting loops are connected in parallel with each other and share at least one of the superconducting inductors to form a flux divider network. A data signal input structure provides a respective bit of a multiple bit signal to each of the superconducting loops. The data signal input structure may include a set of superconducting quantum interference devices (SQUIDs). The data signal input structure may include a superconducting shift register, for example a single-flux quantum (SFQ) shift register or a flux-based superconducting shift register comprising a number of latching qubits.Type: GrantFiled: May 14, 2008Date of Patent: January 17, 2012Assignee: D-Wave Systems Inc.Inventors: Paul I. Bunyk, Felix Maibaum, Andrew J. Berkley, Thomas Mahon
-
Publication number: 20110241765Abstract: A phase quantum bit is disclosed. In one embodiment, the phase quantum bit may comprise a Josephson junction and a distributed element coupled to the Josephson junction. The distributed element provides a capacitive component and an inductive component of the phase quantum bit.Type: ApplicationFiled: April 5, 2010Publication date: October 6, 2011Inventors: Aaron A. Pesetski, James E. Baumgardner, Rupert M. Lewis
-
Publication number: 20110065585Abstract: SQUIDs may detect local magnetic fields. SQUIDS of varying sizes, and hence sensitivities may detect different magnitudes of magnetic fields. SQUIDs may be oriented to detect magnetic fields in a variety of orientations, for example along an orthogonal reference frame of a chip or wafer. The SQUIDS may be formed or carried on the same chip or wafer as a superconducting processor (e.g., a superconducting quantum processor). Measurement of magnetic fields may permit compensation, for example allowing tuning of a compensation field via a compensation coil and/or a heater to warm select portions of a system. A SQIF may be implemented as a SQUID employing an unconventional grating structure. Successful fabrication of an operable SQIF may be facilitated by incorporating multiple Josephson junctions in series in each arm of the unconventional grating structure.Type: ApplicationFiled: October 8, 2009Publication date: March 17, 2011Applicant: D-WAVE SYSTEMS INC.Inventors: Trevor Michael Lanting, Paul I. Bunyk, Andrew J. Berkley, Richard G. Harris, Sergey V. Uchaykin, Andrew Brock Wilson, Mark Johnson
-
Patent number: 7880529Abstract: A coupling system may include first and second magnetic flux inductors communicatively coupled to a Josephson junction of an rf SQUID. The coupling system may allow transverse coupling between qubits. A superconducting processor may include at least one of the coupling systems and two or more qubits. A method may include providing first, second and third coupling structure to control the coupling system.Type: GrantFiled: September 25, 2008Date of Patent: February 1, 2011Assignee: D-Wave Systems Inc.Inventor: Mohammad H. Amin
-
Publication number: 20110018612Abstract: A ladder structure is ferromagnetically coupled to a first qubit where the ladder structure has a monostable energy potential in use, such that the first qubit and the ladder structure effectively operate as a single qubit. The ladder structure and first qubit may be coupled via a superconducting flux coupler. The ladder structure may be a chain of at least two ferromagnetically coupled ladder elements. A value for each ladder element may be less than about 1.Type: ApplicationFiled: March 13, 2009Publication date: January 27, 2011Applicant: D-WAVE SYSTEMS INC.Inventor: Richard G. Harris
-
Patent number: 7847615Abstract: In a quantum computing circuit forming a superconductive loop including a plurality of Josephson junctions, first and second superconductive magnetic flux quantum bit element (101, 102) are biased at a half-quantum magnetic flux, and have mutually different characteristic frequencies. A coupling superconductive magnetic flux quantum bit clement element (103) is located between the first and second superconductive magnetic flux quantum bit elements (101, 102) to perform parametric variable control between the element (101, 102) by supplying a microwave magnetic field pulse which is equal to the frequency difference between the elements (101, 102).Type: GrantFiled: August 29, 2007Date of Patent: December 7, 2010Assignees: NEC Corporation, Japan Science and Technology AgencyInventors: Shinichi Yorozu, Antti Olavi Niskanen
-
Publication number: 20100194466Abstract: There is provided a quantum computing circuit comprising first and second superconductive magnetic flux quantum bit elements (101, 102) and a coupling superconductive magnetic flux quantum bit element (103). The first and second superconductive magnetic flux quantum bit elements form superconductive loops including a plurality of Josephson junctions, are biased at a half-quantum magnetic flux, and have mutually different characteristic frequencies. The coupling superconductive magnetic flux quantum bit clement performs variable control between the elements (101, 102) in a parametric way by applying a microwave magnetic field pulse equal to the frequency difference between the elements (101, 102).Type: ApplicationFiled: August 29, 2007Publication date: August 5, 2010Applicant: NEC CORPORATIONInventors: Shinichi Yorozu, Antti Olavi Niskanen
-
Patent number: 7750664Abstract: A programmable phase shifter is constructed of Rapid Single Flux Quantum (RSFQ) logic elements. The logic elements may include an RSFQ inverter and an RSFQ T flip-flop. A digital word comprising N bits is used to control the amount of phase shift and the phase shifter selectively imparts a respective phase shift for any of 2N states that can be represented by the digital word. The RSFQ logic elements utilize Josephson junctions which operate in the superconducting temperature domain.Type: GrantFiled: March 13, 2009Date of Patent: July 6, 2010Assignee: Hypres, IncInventor: Alexander F. Kirichenko
-
Publication number: 20100148853Abstract: A system for communicably coupling between two superconducting qubits may include an rf-SQUID coupler having a loop of superconducting material interrupted by a compound Josephson junction and a first magnetic flux inductor configured to controllably couple to the compound Josephson junction. The loop of superconducting material may be positioned with respect to a first qubit and a second qubit to provide respective mutual inductance coupling therebetween. The coupling system may be configured to provide ferromagnetic coupling, anti-ferromagnetic coupling, and/or zero coupling between the first and second qubits. The rf-SQUID coupler may be configured such that there is about zero persistent current circulating in the loop of superconducting material during operation.Type: ApplicationFiled: November 13, 2009Publication date: June 17, 2010Inventors: Richard G. Harris, Andrew J. Berkley
-
Publication number: 20100033206Abstract: In one embodiment, the disclosure relates to a single flux quantum (SFQ) signal transmission line powered by an AC power source. The AC power source supplies power to a transformer having a primary winding and a secondary winding. The primary winding receives the AC signal and the secondary winding communicates the signal to the SFQ transmission line. The transmission line can optionally include an input filter circuit for receiving the incoming SFQ pulse. The filter circuit can have a resistor and an inductor connected in parallel. In an alternative arrangement, the filter circuit can comprise of an inductor. A first Josephson junction can be connected to the filter circuit and to the secondary winding. The Josephson junction triggers in response to the incoming SFQ pulse and regenerates a pulse signal in response to a power discharge from the secondary winding.Type: ApplicationFiled: May 7, 2009Publication date: February 11, 2010Applicant: Northrop Grumman Systems CorporationInventors: Quentin P. Herr, James E. Baumgardner, Anna Y. Herr
-
Publication number: 20090079494Abstract: A method of operating a quantum system comprising computational elements, including an insulated ring of superconductive material, and semi-closed rings used as an interface between the computational elements and the external world, is disclosed. In one aspect, the method comprises providing an electrical signal, e.g. a current, in an input ring magnetically coupled to a computational element, which generates a magnetic field in the computational element and sensing the change in the current and/or voltage of an output element magnetically coupled to the computational element. The electrical input signal can be an AC signal or a DC signal. The computational element is electromagnetically coupled with other adjacent computational elements and/or with the interface elements. The corresponding magnetic flux between the computational elements and/or the interface elements acts as an information carrier. Ferromagnetic cores are used to improve the magnetic coupling between adjacent elements.Type: ApplicationFiled: September 25, 2008Publication date: March 26, 2009Applicants: Interuniversitair Microelektronica Centrum vzw (IMEC), Katholieke Universiteit LeuvenInventors: Christoph Kerner, Wim Magnus, Dusan Golubovic
-
Patent number: 7508230Abstract: A programmable phase shifter is constructed of Rapid Single Flux Quantum (RSFQ) logic elements. The logic elements may include an RSFQ inverter and an RSFQ T flip-flop. A digital word comprising N bits is used to control the amount of phase shift and the phase shifter selectively imparts a respective phase shift for any of 2N states that can be represented by the digital word. The RSFQ logic elements utilize Josephson junctions which operate in the superconducting temperature domain.Type: GrantFiled: October 4, 2005Date of Patent: March 24, 2009Assignee: Hypres, Inc.Inventor: Alexander F. Kirichenko
-
Publication number: 20090015317Abstract: A system for quantum computing includes a plurality of qubits and a control system. The control system generates control signals to control operation of the qubits and sets a bias point of each quit between a first position, in which the qubit is disabled and not responsive to the control signals, and a second positions in which the qubit is enabled and responsive to the control signals.Type: ApplicationFiled: July 13, 2007Publication date: January 15, 2009Inventors: David Peter DiVincenzo, Roger Hilsen Koch
-
Patent number: 7459927Abstract: A superconductor crossbar switch for connecting a plurality of inputs with a plurality of outputs, including a switching cell having an input, an output and a circuit for connecting the input with the output for bidirectionally transmitting data therebetween. The connection of the retaining and releasing circuitry of a plurality of cells enables the switch to simultaneously retain a selected cell or cells of a group of cells and disable the remaining cells of that group, whereby a subsequent query on a disabled cell is inoperative until the selected cell or cells is released. The crossbar switch is characterized by latency on the order of nanoseconds, a data rate per channel on the order of gigabits per second, essentially zero crosstalk, and detection of contention in nanoseconds or less and resolution of contention in nanoseconds or less.Type: GrantFiled: August 24, 2005Date of Patent: December 2, 2008Inventor: Fernand D. Bedard
-
Publication number: 20080238531Abstract: A coupling system may include an rf-SQUID having a loop of superconducting material interrupted by a compound Josephson junction; and a first magnetic flux inductor configured to selectively provide a mutual inductance coupling the first magnetic flux inductor to the compound Josephson junction, wherein the loop of superconducting material positioned with respect to a first and second qubits to provide respective mutual inductance coupling therebetween. The coupling system may further include a second magnetic flux inductor configured to selectively provide a second magnetic flux inductor mutual inductance coupling the second magnetic flux inductor to the compound Josephson junction. A superconducting processor may include the coupling system and two or more qubits. A method may include providing the first, the second and the third mutual inductances.Type: ApplicationFiled: January 22, 2008Publication date: October 2, 2008Inventor: Richard G. Harris
-
Publication number: 20080129368Abstract: Objects of the present invention are to provide an integration circuit which produces no integration leak so that the bit accuracy is improved in a sigma-delta modulation circuit or a delta modulator circuit, which is based on a single flux quantum circuit that uses a flux quantum as an information carrier, and to provide a method for reducing thermal noise and quantization noise. According to the present invention, an integration circuit is formed by Josephson junctions and an inductor to reduce the integration leak, and a plurality of modulator circuits are connected to one another so as to add up each output. As a result, it is possible to reduce the influence of thermal noise exerted upon the bit accuracy, the thermal noise having no correlativity to one another.Type: ApplicationFiled: June 8, 2007Publication date: June 5, 2008Inventors: Futoshi Furuta, Kazuo Saitoh
-
Patent number: 7268576Abstract: A first qubit having a superconducting loop interrupted by a plurality of Josephson junctions is provided. Each junction interrupts a different portion of the superconducting loop and each different adjacent pair of junctions in the plurality of Josephson junctions defines a different island. An ancillary device is coupled to the first qubit. In a first example, the ancillary device is a readout mechanism respectively capacitively coupled to a first and second island in the plurality of islands of the first qubit by a first and second capacitance. Quantum nondemolition measurement of the first qubit's state may be performed. In a second example, the ancillary device is a second qubit. The second qubit's first and second islands are respectively capacitively coupled to the first and second islands of the first qubit by a capacitance. In this second example, the coupling is diagonal in the physical basis of the qubits.Type: GrantFiled: November 4, 2005Date of Patent: September 11, 2007Assignee: D-Wave Systems Inc.Inventor: Mohammad H. S. Amin
-
Patent number: 7253654Abstract: A first qubit having a superconducting loop interrupted by a plurality of Josephson junctions is provided. Each junction interrupts a different portion of the superconducting loop and each different adjacent pair of junctions in the plurality of Josephson junctions defines a different island. An ancillary device is coupled to the first qubit. In a first example, the ancillary device is a readout mechanism respectively capacitively coupled to a first and second island in the plurality of islands of the first qubit by a first and second capacitance. Quantum nondemolition measurement of the first qubit's state may be performed. In a second example, the ancillary device is a second qubit. The second qubit's first and second islands are respectively capacitively coupled to the first and second islands of the first qubit by a capacitance. In this second example, the coupling is diagonal in the physical basis of the qubits.Type: GrantFiled: November 4, 2005Date of Patent: August 7, 2007Assignee: D-Wave Systems Inc.Inventor: Mohammad H. S. Amin
-
Patent number: 6960929Abstract: A superconductor crossbar switch for connecting a plurality of inputs with a plurality of outputs, including a switching cell having an input, an output and a circuit for connecting the input with the output for bidirectionally transmitting data therebetween. The connection of the retaining and releasing circuitry of a plurality of cells enables the switch to simultaneously retain a selected cell or cells of a group of cells and disable the remaining cells of that group, whereby a subsequent query on a disabled cell is inoperative until the selected cell or cells is released. The crossbar switch is characterized by latency on the order of nanoseconds, a data rate per channel on the order of gigabits per second, essentially zero crosstalk, and detection of contention in nanoseconds or less and resolution of contention in nanoseconds or less.Type: GrantFiled: July 23, 2002Date of Patent: November 1, 2005Inventor: Fernand D. Bedard
-
Patent number: 6949970Abstract: A programmable voltage standard element which consists of Josephson junction arrays having Josephson junction devices which are connected in series generates constant voltage by impression of bias current and microwave. The voltage standard element has bias current terminals each of which is provided for a respective section comprising a Josephson junction devices of in-series connection that are divided by the number of the nth power of 3. A bias current supply circuit independently impresses bias current of a predetermined value to a bias current terminal for every section. A controlling circuit controls a bias current supply circuit to impress bias current of a predetermined value to a Josephson junction array of each section and control impression of microwave.Type: GrantFiled: November 18, 2003Date of Patent: September 27, 2005Assignee: National Institute of Advanced Industrial Science and TechnologyInventors: Mayumi Ishizaki, Hirotake Yamamori, Akira Shoji
-
Patent number: 6839578Abstract: A method of forming a novel high temperature superconducting Josephson junction which is capable of achieving a formation of a Josephson junction having high characteristics conveniently and quickly without necessitating costly micromachining facilities. Two high temperature superconducting whisker crystals are crossed with each other on a substrate and subjected to thermal treatment to form a Josephson junction between the two high temperature superconducting whisker crystals.Type: GrantFiled: June 9, 2003Date of Patent: January 4, 2005Assignee: National Institute for Materials ScienceInventors: Yoshihiko Takano, Takeshi Hatano, Akira Ishii, Syunichi Arisawa, Kazumasa Togano
-
Publication number: 20040150462Abstract: A programmable voltage standard element which consists of Josephson junction arrays having Josephson junction devices which are connected in series generates constant voltage by impression of bias current and microwave.Type: ApplicationFiled: November 18, 2003Publication date: August 5, 2004Inventors: Mayumi Ishizaki, Hirotake Yamamori, Akira Shoji
-
Patent number: 6608518Abstract: The problem of the disclosed technology is as follows. Although a single flux quantum circuit can fabricate a high-speed sequential circuit with ease, the initialization of the circuit is required for guaranteeing the normal operation of the circuit. However, a prior-art circuit has no initializing function, or requires the restructuring of another logic system. For solving the foregoing problem, one Josephson junction is inserted to a flux quantum storage inductor constituting the existing logic circuit, so that a pulse for performing the circuit initialization is injected to the connection point by means of a comparator.Type: GrantFiled: June 6, 2002Date of Patent: August 19, 2003Assignee: Hitachi, Ltd.Inventors: Futoshi Furuta, Kazuo Saitoh, Kazumasa Takagi
-
Publication number: 20030122543Abstract: An apparatus for measuring electromagnetic characteristics includes a sample rod with a sample fixed to a lower part thereof, a helium 3 refrigerator, in which the sample rod is inserted, having a main pipe that forms around the sample rod a space that is cooled by helium 3, a device for supplying helium 3 to the helium 3 refrigerator, an inner tube portion, into which the main pipe is inserted, that supports at an upper part thereof the refrigerator, an outer tube that cools an outer periphery of the inner tube with helium, a liquid helium container that supplies liquid helium to the outer tube, and a device for measuring the electromagnetic characteristics of the sample.Type: ApplicationFiled: November 19, 2002Publication date: July 3, 2003Applicant: National Inst. of Advanced Ind. Science and Tech.Inventors: Naoki Shirakawa, Shinichi Ikeda
-
Patent number: 6580310Abstract: A rapid SFQ one-way buffer (13, 1, 4, 5, 15, 2 & 9), is combined with a Josephson transmission line (17,3, 19, 16, 21 & 4) that is lightly loaded (RL) to provide a superconductor driver capable of producing double flux quantum output pulses. Each SFQ pulse applied to the input of the one-way buffer propagates through the Josephson transmission line to generate a double flux quantum pulse at the transmission line output.Type: GrantFiled: August 22, 2001Date of Patent: June 17, 2003Assignee: Northrop Grumman CorporationInventor: Quentin P. Herr
-
Patent number: 6549059Abstract: A Josephson junction transmission line (50) for transmitting single flux quantum pulses. The transmission line (50) includes a current source (53), a plurality of isolation inductors (52, 54) electrically coupled in series along the transmission line (50), and a plurality of Josephson junction circuits (60, 70) electrically coupled in parallel along the transmission line (50). Each of the Josephson junction circuits (60, 70) includes only a Josephson junction (62, 72) and a parasitic inductor (64, 74) coupled in series. The Josephson junction circuits (60, 70) do not include a damping resistor in order to reduce timing uncertainty and to enhance propagation speed.Type: GrantFiled: February 23, 2001Date of Patent: April 15, 2003Assignee: TRW Inc.Inventor: Mark W. Johnson
-
Publication number: 20030042898Abstract: A self-adjusting assembly and method are disclosed. In the disclosed embodiments, a support assembly for supporting a device comprises a pair of support members for supporting the device. One of the members is adapted to help support the device from a ground, and another of the members is adapted to provide lateral support for the device and to permit free longitudinal movement of the device as it expands or contracts due to temperature variations.Type: ApplicationFiled: August 26, 2002Publication date: March 6, 2003Applicant: Tristan Technologies, Inc.Inventors: Ray Edmund Sarwinski, Richard Charles Reineman, Sheldon Jao Dung Gott, David Alan Schurig, Douglas Norman Paulson
-
Patent number: 6512368Abstract: A dewar for SQUID is provided. In the dewar for SQUID, an amount of leak gas discharged from absorbent arranged in the upper portion higher than the liquid surface level of liquid helium is small even if the liquid surface level of the liquid helium is lowered.Type: GrantFiled: January 30, 2001Date of Patent: January 28, 2003Assignee: Hitachi, Ltd.Inventors: Hiroyuki Tanaka, Norihide Saho, Hitoshi Sasabuchi
-
Patent number: 6507234Abstract: A superconductor circuit (50) for providing active timing arbitration between SFQ pulses. The superconductor circuit (50) includes a first superconducting transmission line (52) having at least one inductor (54) for transmitting first input pulses, and a second superconducting transmission line (62) having at least one inductor (64) for transmitting second input pulses that are correlated to the first input pulses. The first and second superconducting transmission lines (52, 62) are coupled together in order to generate a flux attraction between the first and second input pulses for reducing relative timing uncertainty.Type: GrantFiled: November 13, 2000Date of Patent: January 14, 2003Assignee: TRW Inc.Inventors: Mark W. Johnson, Quentin P. Herr, Bruce J. Dalrymple, Arnold H. Silver
-
Publication number: 20020158631Abstract: A biomagnetic field measuring apparatus including: a plurality of magnetometers each employing a superconducting quantum interference device for measuring the magnetic field generated from an organism; a unit for calculating a pseudo-current from a normal component of the magnetic field; a unit for calculating the pseudo-current from the magnetic field obtained from the plurality of magnetometers to integrate the pseudo-current in a fixed direction on the circumference at a fixed distance from each of the associated ones of the sensors; a unit for calculating a maximum value or a minimum value of the integral value obtained by the unit for performing the integral; and a unit for calculating a difference value between the absolute value of the maximum value and the absolute value of the minimum value.Type: ApplicationFiled: April 12, 2002Publication date: October 31, 2002Inventors: Akihiko Kandori, Tsuyoshi Miyashita, Keiji Tsukada, Masahiro Murakami
-
Patent number: 6331805Abstract: One aspect of the invention is directed to on-chip high-frequency, low-jitter clock circuits including long Josephson junction (LJJ) oscillators usable as clock sources. LJJ oscillators embodying the invention may be formed using either “linear” or “annular” long Josephson junctions. This invention enables the generation and distribution of a stable high-frequency on-chip single flux quantum (SFQ) clock. The on-chip clock circuit may include a clock selector circuit and a clock distribution scheme and may be integrated with RSFQ circuits and/or with a wideband analog-to-digital converter (ADC) comparator. The invention also includes a new fluxon “sender” circuit suitable for synchronizing the LJJ oscillator with another oscillator, either on-chip or external to the chip. The new sender circuit may also enable the realization of a novel phase-locked loop (PLL) circuit.Type: GrantFiled: June 22, 2000Date of Patent: December 18, 2001Assignees: Hypres, Inc., Conductus, IncInventors: Deepnarayan Gupta, Yongming Zhang
-
Patent number: 6005380Abstract: A magnetic field sensor which can be used as an active antenna is disclosed that is capable of small size, ultrawideband operation, and high efficiency. The sensor includes a multiplicity of magnetic field transducers, e.g., superconducting quantum interference devices (SQUIDs) or Mach-Zehnder modulators, that are electrically coupled in a serial array. Dummy SQUIDs may be used about the perimeter of the SQUID array, and electrically coupled to the active SQUIDs for eliminating edge effects that otherwise would occur because of the currents that flow within the SQUIDs. Either a magnetic flux transformer which collects the magnetic flux and distributes the flux to the transducers or a feedback assembly (bias circuit) or both may be used for increasing the sensitivity and linear dynamic range of the antenna.Type: GrantFiled: April 3, 1998Date of Patent: December 21, 1999Assignee: The Boeing CompanyInventor: Stephen P. Hubbell
-
Patent number: 5936458Abstract: Josephson transmission structures (JTSs) which include Josephson transmission lines (JTLs) with filter circuitry and flux release circuitry. Two or more of these JTSs may be interconnected to form a superconducting high-gain operational amplifier intended for general-purpose analog signal processing is disclosed. The active elements of the amplifier are non-hysteretic Josephson junctions configured as dc SQUIDs (used as flux-to voltage transducers and impedance transformers) and Josephson transmission lines (used as the main source of power gain). The amplifier has inverting and non-inverting voltage inputs, which can be fed from any low-resistance low-voltage sources, including dc SQUIDs. The output of the amplifier is in the form of a voltage which can drive typical transmission line impedances (e.g., 10-100 ohms).Type: GrantFiled: July 21, 1997Date of Patent: August 10, 1999Assignee: Hypres, Inc.Inventor: Sergey V. Rylov
-
Patent number: 5844407Abstract: A magnetic field sensor which can be used as an active antenna is disclosed that is capable of small size, ultrawideband operation, and high efficiency. The sensor includes a multiplicity of magnetic field transducers, e.g., superconducting quantum interference devices (SQUIDs) or Mach-Zehnder modulators, that are electrically coupled in a serial array. Dummy SQUIDs may be used about the perimeter of the SQUID array, and electrically coupled to the active SQUIDs for eliminating edge effects that otherwise would occur because of the currents that flow within the SQUIDs. Either a magnetic flux transformer which collects the magnetic flux and distributes the flux to the transducers or a feedback assembly (bias circuit) or both may be used for increasing the sensitivity and linear dynamic range of the antenna.Type: GrantFiled: June 5, 1997Date of Patent: December 1, 1998Assignee: The Boeing CompanyInventor: Stephen P. Hubbell
-
Patent number: 5831278Abstract: A three-terminal device constructed from a Josephson junction with one or more asymmetric control lines is disclosed. The device is constructed with high temperature superconducting materials. The junction can be a bicrystal, SNS (Superconducting-Normal-Superconducting) or any other type of high temperature superconductor junction. The control line is either a conducting or superconducting material which is electrically isolated from the junction but inductively coupled into the junction. A portion of the control line is approximately directly above the junction and has current which at least partially flows parallel or nonparallel to current flowing across the junction. The control line current alters the magnetic field within the junction which changes the critical current of the junction. The junction is in a superconducting or resistive state depending on whether the bias current of the junction is greater than or less than the control current.Type: GrantFiled: March 15, 1996Date of Patent: November 3, 1998Assignee: Conductus, Inc.Inventor: Stuart J. Berkowitz
-
Patent number: 5757243Abstract: An effective high frequency oscillator is made of a plurality of Josephson devices. A high frequency converter as a high frequency circuit is made of the high frequency oscillator, nonlinear superconductor devices, and transmission line. Josephson devices are connected in parallel to make a superconductor module. Then superconductive modules are connected in series for high frequency via a phase locking circuit such as a thin film type capacitor to make the high frequency oscillator. Consequently, the high frequency oscillator is used as a local oscillator for a frequency converter. The high frequency system comprises a high frequency package housing a high frequency circuit, a cooling unit including a low temperature stage in thermal contact with the high frequency package, and a shielding case for housing the high frequency circuit and the low temperature stage. The high frequency system of the present invention provides a small-sized and power-saving high frequency circuit having operational stability.Type: GrantFiled: May 13, 1996Date of Patent: May 26, 1998Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Koichi Mizuno, Akira Enokihara, Hidetaka Higashino, Kentaro Setsune
-
Patent number: 5574369Abstract: A sensitive detector and detector system with multi-state element or elements employing the phenomenon of stochastic resonance to enhance signal-to-noise ratio (SNR) and detector sensitivity. Signal output is enhanced by the addition of external noise at the input. A single detector element has these improved outputs. Several stochastic resonance elements may be connected in arrays to further increase SNR of the output, increase detector sensitivity, and linearize the relation between input and output.Type: GrantFiled: August 19, 1994Date of Patent: November 12, 1996Inventor: Andrew D. Hibbs
-
Patent number: 5552735Abstract: A switch for controlling the throughput of a signal between a pair of input channels and a pair of output channels is provided which receives an input signal from each of the pair of input channels. The switch transmits an output signal to each of the pair of output channels. Four line channels are provided within the switch. Each of the four line channels connects one of the pair of input channels and one of the pair of output channels. Four line channel switches are also provided, one line channel switch provided on each of the line channels. Each of the four line channel switches is controlled by a signal to open or close the four line channels.Type: GrantFiled: October 7, 1994Date of Patent: September 3, 1996Assignee: Northrop Grumman CorporationInventors: Joonhee Kang, John X. Przybysz, Anthony H. Worsham
-
Patent number: 5424641Abstract: A SQUID fluxmeter, which object is to accurately measure magnetic flux even if the input magnetic flux is largely changed in a short time, includes an 1-input superconducting OR gate for outputting pulses to the number of i in response to one input pulse from a SQUID, an AC bias current source for outputting a current I.sub.C of variable frequency 4if to a bias input node of the OR gate, an up/down counter for counting pulses from the SQUID and a control circuit for outputting a control signal CSi to the AC bias current source corresponding to the time differential value of the count value C1 of the counter and present value i. The response speed of the magnetic flux feedback through the feedback coil to the SQUID in response to the magnetic flux input to the SQUID is thereby made i times higher than that in the prior art.Type: GrantFiled: July 26, 1993Date of Patent: June 13, 1995Assignee: Fujitsu LimitedInventor: Kohtaroh Gotoh
-
Patent number: 5420100Abstract: A planar SQUID magnetometer for detection and measurement of an applied magnetic flux is disclosed wherein a planar microwave-resonant element overlaps a Josephson device incorporated in a high-T.sub.c superconducting, thin-film SQUID device, thereby providing inductive coupling between the planar microwave-resonant element and the SQUID device. When the microwave-resonant element is excited by incident high-frequency microwave radiation, the intensity of reflected microwave radiation varies in response to a magnetic flux applied to the SQUID device in accordance with non-linear oscillatory behavior of the microwave-resonant element due to inductive loading by the SQUID device. The microwave-resonant element and the SQUID device are preferably fabricated photolithographically on a single substrate.Type: GrantFiled: April 5, 1991Date of Patent: May 30, 1995Assignee: Northeastern UniversityInventors: Carmine Vittoria, Allan Widom, Yizhou Huang, Hoton How
-
Patent number: 5378999Abstract: The present invention comprises a novel matrix amplifier. The matrix amplifier includes an active superconducting power divider (ASPD) having N output ports; N distributed amplifiers each operatively connected to one of the N output ports of the ASPD; and a power combiner having N input ports each operatively connected to one of the N distributed amplifiers. The distributed amplifier can included M stages of amplification by cascading superconducting active devices. The power combiner can include N active elements. The resulting (N.times.M) matrix amplifier can produce signals of high output power, large bandwidth, and low noise.Type: GrantFiled: August 16, 1993Date of Patent: January 3, 1995Assignee: The United States of America as represented by the United States Department of EnergyInventors: Jon S. Martens, Vincent M. Hietala, Thomas A. Plut