Magnetic properties by Superconducting quantum interference devices (SQUID)
Negative-resistance models for parametrically flux-pumped superconducting quantum interference devices
... The importance of the matrix equation (Eq. ()) should be emphasized. This tells us the response of a flux-pumped SQUID between all relevant frequency components, but yet it can be used in the same form as any other ...
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Holonomic quantum computation using rf superconducting quantum interference devices coupled through a microwave cavity
... In this paper, we propose a different scheme to achieve holonomic quantum computation using superconducting quantum interference devices 共SQUIDs兲 in a cavity. Based on the non-Abelian ...
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Nb-based nanoscale superconducting quantum interference devices tuned by electroannealing: Supplemental Material
... the Lorenz number, R N the normal resistance of the two Josephson junctions in parallel and g(T ) a non-linear function of temperature related to the thermal conductiv- ity in the superconducting state. Using only ...
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3-Axis geomagnetic magnetometer system design using superconducting quantum interference devices
... The feedback is 0.443 µA/nT and 0.433 µA/nT for the X-axis and Z-axis respectively. Manually resetting the PFLs to force flux jumps resulted in measuring 12.2 µA/ feedback coil coupling for the X-axis (1.16 times ...
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Scanning superconducting quantum interference device microscopy : sensitive mapping of magnetic flux on thin films
... s from equation(3.6) is determined. The effective area of this sensor is 5.4 µm 2 . 3.5 Noise The SSM is very sensitive to external noise sources, for example mobile phones or electronic devices connected to the ...
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Zero dispersion stochastic resonance in a model for a superconducting quantum interference device
... a superconducting quantum interference device, or SQUID ! can be substantially enhanced, over a wide range of frequencies, by the addition of ...
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h/e Superconducting quantum interference through trivial edge states in InAs
... for Quantum Devices and Station Q Copenhagen, Niels Bohr Institute, University of Copenhagen, Copenhagen, Denmark 6 Microsoft Station Q Delft, 2600 GA Delft, The Netherlands (Received 12 September 2017; ...
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Superconducting Nonlinear Kinetic Inductance Devices
... modern experiments such as POLARBEAR, SPIDER, and BICEP2 for studies of the polarization of the cosmic microwave background radiation. Next-generation instruments demand larger arrays of detectors to increase the ...
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Some implications of superconducting quantum interference to the application of master equations in engineering quantum technologies
... of quantum master equations, as these provide a generic pathway for the modelling of a quantum system and its interaction with the ...system properties from environmental influ- ...
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Superconducting and magnetic properties of non centrosymmetric systems
... become superconducting at ambient pressure, these measurements can help characterize the position of the compounds in the Do- niach phase diagram and their proximity to the superconducting dome and ...
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Application of Data Acquisition System for Superconducting Quantum Interface Devices at Remote Location
... KEYWORDS: Superconducting Quantum Interference, Microcontroller, LPC2148 development board, GSM Module, smart phones. I. INTRODUCTION In this modern era research is done for data acquisition in ...
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Quantum Interference without Quantum Mechanics
... [8]. For a recent discussion we refer to [9]. The model to be used in this paper, is also based on the assumption of a (ZBW). But the new aspect is that, the (ZBW) is not ascribed to the electron, but rather to a ...
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Electronic Properties under the External Applied Magnetic Field in the Normal Metallic and Superconducting States
... (14), only independent one electron has been considered and two electrons have not been treated. That is, vibronic stabilization energies for the opened-shell electronic states have been calculated by many researchers, ...
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On-chip hybrid superconducting-semiconducting quantum circuit
... induced superconducting gap in In 0.75 Ga 0.25 As quantum well was observed at magnetic field B= 0 and at temperatures between T= 300 mK and 900 ...based devices (~9 K) than commonly used Al ...
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Quantum computation with Majorana modes in superconducting circuits
... the quantum state of the identical particles, and in the presence of an energy gap it stays protected as long as the particles stay far away from each other, or do not accidentally exchange their ...fractional ...
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Quantum Interference in Semiconductor Rings
... Two-dimensional quantum ring arrays In this chapter we calculate the conductance and the spin transport properties of two- dimensional rectangular arrays consisting of quantum rings, in which ...
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Quantum Interference in Josephson Junctions
... the superconducting properties, as we shall see, referring to Jo- sephson junctions, in the following ...purely quantum mechanical analysis in ...
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Optimal control and quantum simulations in superconducting quantum devices
... cavity quantum electrodynamics (QED) [ 153 ], where the interaction between those units is made strong by confining the field into a small mode volume [ 116 ...using superconducting qubits as artificial ...
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EFFECT OF MAGNETIC FIELD ON SUPERCONDUCTING COMPLEX RESISTANCE ACCORDING TO QUANTUM MECHANICS
... of quantum resistance is used to express it as real and imaginary part in the presence of external magnetic ...external magnetic strength exceeds certain critical value superconductivity is destroyed ...
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Electronic properties of nano and molecular quantum devices
... Chapter 5 explored and studied the electronic properties of oligoyne-based molecular wires in three different mediums, theoretically and experimentally. It has been demonstrated that the changing of the solvent ...
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