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FERROMAGNETIC-ENHANCED LOW-PRESSURE INDUCTIVE DISCHARGE FOR PLASMA PROCESSING
AbstractThe generation of a low-frequency low-pressure inductive discharge with ferromagnetic enhancement of the magnetic coupling between the coil...
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Convergence of Dynamics on Inductive Systems of Banach Spaces
Many features of physical systems, both qualitative and quantitative, become sharply defined or tractable only in some limiting situation. Examples...
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Strong tunable coupling between two distant superconducting spin qubits
Andreev spin qubits have recently emerged as an alternative qubit platform with realizations in semiconductor–superconductor hybrid nanowires. In...
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GENERATION OF A LOW-FREQUENCY INDUCTIVE DISCHARGE AT ATMOSPHERIC PRESSURE
AbstractThis paper describes an inductive discharge with ferromagnetic enhancement of magnetic coupling between an inductor and a discharge,...
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Kinetics and Model of Metal Vapor Lasers Excited by an Inductive Pulsed-Periodic High-Freaquency Discharge
AbstractThe article presents a physical model of the processes occurring in a nonequilibrium plasma of the working body of metal vapor lasers excited...
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Visualizing heterogeneous dipole fields by terahertz light coupling in individual nano-junctions
The challenge underlying superconducting quantum computing is to remove materials bottleneck for highly coherent quantum devices. The nonuniformity...
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Energy-guided synapse coupling between neurons under noise
From a physical viewpoint, any external stimuli including noise disturbance can inject energy into the media, and the electric response is regulated...
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Gyrokinetic theory of toroidal Alfvén eigenmode saturation via nonlinear wave–wave coupling
Nonlinear wave–wave coupling constitutes an important route for the turbulence spectrum evolution in both space and laboratory plasmas. For example,...
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Scalable and robust quantum computing on qubit arrays with fixed coupling
We propose a scheme for scalable and robust quantum computing on two-dimensional arrays of qubits with fixed longitudinal coupling. This opens the...
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Gordon Coupler with Inductive or Capacitive Iris for Small EPR Resonators for Aqueous Samples
The Gordon coupler was introduced for use in EPR experiments at liquid helium temperatures. It provides an evanescent wave incident on the iris of a...
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Analysis of the coupling characteristics of ion cyclotron resonance heating antenna of small tokamak with the help of 2D and 3D antenna codes
An analytical and numerical study of the coupling of strip-line antenna with small tokamak plasma is presented with the help of the ICRH antenna code...
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Meso-Scale Electrodynamic Coupling of the Earth Magnetosphere-Ionosphere System
Within the fully integrated magnetosphere-ionosphere system, many electrodynamic processes interact with each other. We review recent advances in...
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Investigation of Optical Coupling in Microwave Kinetic Inductance Detectors Using Superconducting Reflective Plates
To improve the optical coupling in microwave kinetic inductance detectors (MKIDs), we investigate the use of a reflective plate beneath the meandered...
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Resonant Circuits, One-Port Networks, Coupling Filters Made of Lumped, Passive Components
This first chapter of the book is dedicated to resonant circuits. The frequency response and other important properties of inductances, capacitances... -
Coupling Sub-nanoliter BDPA Organic Radical Spin Ensembles with YBCO Inverse Anapole Resonators
We report the development and test of planar microwave Inverse Anapole Resonators (IARs) made of superconducting Yttrium Barium Copper Oxide (YBCO)...
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Resonance synchronisation between memristive oscillators and network without variable coupling
Continuous energy pum** and exchange along the coupling channel can balance the energy release between nonlinear oscillators for reaching complete...
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Compact description of quantum phase slip junctions
Quantum circuit theory is a powerful tool to describe superconducting circuits. In its language, quantum phase slips (QPSs) are considered to be the...
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Wave propagation in a light-temperature neural network under adaptive local energy balance
External electric and mechanical stimuli can induce shape deformation in excitable media because of its intrinsic flexible property. When the signals...
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Application of honeycomb pattern to Ti2AlN MAX phase films by plasma etching
The honeycomb pattern possesses a distinctive hexagonal structure capable of seamless repetition on a flat surface, leaving no gaps. Moreover, all...