Search results for "DOMAIN"

showing 10 items of 2485 documents

Efficient Iterative Solution of Time-harmonic Scattering by Objects in Layered Fluid

2008

We consider the computation of time-harmonic acoustic scattering by sound-soft or elastic objects in layered media. An example of such problem is the scattering by a mine buried in sediment. The computational domain can be tens or hundreds of meters long while the target requires modeling of details smaller than one centimeter. A discretized problem can have several billion degrees of freedom.

PhysicsDiscretizationTime harmonicScatteringComputationAcousticsDegrees of freedom (statistics)Computer Science::DatabasesDomain (software engineering)
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Analysis of the irradiance along different paths in the image space using the Wigner distribution function

1997

Abstract The intensity distribution along different paths in the image space of an optical system is described in a two-dimensional phase-space domain in terms of the Wigner distribution function. This approach is useful for an efficient analysis of the performance of optical imaging systems suffering from spherical aberration. The good performance of the method is shown in some numerical simulations.

PhysicsDistribution (number theory)business.industryComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONIrradianceSpace (mathematics)Atomic and Molecular Physics and OpticsDomain (mathematical analysis)Electronic Optical and Magnetic MaterialsImage (mathematics)Spherical aberrationOpticsWigner distribution functionElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessIntensity (heat transfer)Optics Communications
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A three domain controller for a high frequency high power four quadrant power converter for superconducting magnets

2002

The paper describes the implementation of a controller that orchestrates the functioning of three subsystems that implement a high energy converter (/spl plusmn/1500 A, /spl plusmn/15 V) that supplies a superconducting magnet to be used in particle accelerators. The performance of the whole system, in accordance to specifications, is documented with experimental results.

PhysicsDomain controllerbusiness.industryElectrical engineeringParticle acceleratorSuperconducting magnetQuadrant (instrument)InductorLinear particle acceleratorlaw.inventionlawbusinessPulse-width modulationVoltagePESC97. Record 28th Annual IEEE Power Electronics Specialists Conference. Formerly Power Conditioning Specialists Conference 1970-71. Power Processing and Electronic Specialists Conference 1972
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Step-Edge Induced Anisotropic Domain-Wall Propagation

1999

We report the observation of anisotropic domain-wall propagation in ultrathin magnetic films with perpendicular anisotropy. A controlled density of step edges was introduced which allowed us to quantify its influence on the domain-wall pinning. For a sawtooth arrangement of the step edges the corresponding wall movement resulted in triangular shaped domains. All aspects of this anisotropic domain-wall evolution could be reproduced by a simulation based on a modified Ginzburg-Landau-type soft-spin model.

PhysicsDomain wall (magnetism)Condensed matter physicsCondensed Matter::SuperconductivityGeneral Physics and AstronomyStep edgesPerpendicular anisotropyMagnetic filmsSawtooth waveEdge (geometry)AnisotropySimulation basedPhysical Review Letters
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Correlation between spin structure oscillations and domain wall velocities (presentation video)

2014

Magnetic sensing and logic devices based on the motion of magnetic domain walls rely on the precise and deterministic control of the position and the velocity of individual magnetic domain walls. Varying domain wall velocities have been predicted to result from intrinsic effects such as oscillating domain wall spin structure transformations and extrinsic pinning due to imperfections. We use direct dynamic imaging of the nanoscale spin structure to directly check these predictions. We find a new regime of oscillating domain wall motion even below the Walker breakdown correlated with periodic spin structure changes and we show that the extrinsic pinning from defects in the nanowire only affec…

PhysicsDomain wall (magnetism)Condensed matter physicsMagnetic domainMagnetismPosition (vector)Dynamic imagingDomain (ring theory)NanowireSpin structureSPIE Proceedings
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Local control of domain wall dynamics in ferromagnetic rings

2015

Ferromagnetic nanorings are of great interest due to prospective applications in memory and logic devices based on domain wall (DW) motion.1-3A key-prerequisite for their realization is a reproducible domain wall spin structure with a well-controllable wall velocity. We have found that DW propagation in magnetic ring is characterized by non-constant vortex DW velocity even below Walker breakdown4 (as opposed to straight wires). Several studies have been devoted to the optimization of ring reversal on a global scale using out-of plane field5 or flux charges emanating from neighboring rings if placed in close proximity6. However, these methods involve DW pinning and vortex nucleation processe…

PhysicsDomain wall (magnetism)Condensed matter physicsMagnetic domainSingle domainMagnetic susceptibilityMicromagneticsMagnetic fluxMagnetic fieldVortex2015 IEEE Magnetics Conference (INTERMAG)
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Electric field driven domain wall transfer in hybrid structures

2012

Domain wall (DW) motion devices attracts much interest with their prospective logic and memory applications[1][2]. Present on-chip DW manipulations by a magnetic field of electric currents or electron spin torque raise the problem of high Ohmic energy losses. We show that such a difficulty can be avoided by applying an exchange field H eff to the magnetic layer from the proximate graphene (Gr), instead of using an actual magnetic field. H eff is shown to be dependent on carrier density gradient in Gr, which is easily manipulated with a gate voltage. A novel memory device implementing this concept is designed and modeled, demonstrating switching power well below femto-Joule while maintaining…

PhysicsDomain wall (magnetism)FerromagnetismCondensed matter physicsField (physics)business.industryLogic gateElectric fieldElectrical engineeringElectronElectric currentbusinessMagnetic field70th Device Research Conference
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Chiral Magnetic Domain Wall and Skyrmion Memory Devices

2021

In the chapter, we have reviewed the fundamental physics for designing magnetic domain wall memories, especially domain wall racetrack memories. An overview of how the racetrack has been functionally improved and the fundamental physics behind the operating mechanism has developed is shown. Material wise, the design of the racetrack has changed from using in-plane magnetic materials to out-of-plane magnetic materials. The process of changing the material design resulted in new physics such as the spin-orbit torques (SOTs) and the Dzyaloshinskii-Moriya interaction (DMI) which resulted in domain wall motion with higher efficiency and stability. The SOT is the main mechanism in moving the doma…

PhysicsDomain wall (magnetism)Magnetic domainCondensed matter physicsSkyrmionSpin Hall effectRacetrack memoryChiral symmetry breakingSpin-½Domain (software engineering)
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Automotive domain wall propagation in ferromagnetic rings

2015

Automotive domain wall propagation is a self-propelling motion utilizing the energy stored in a particular energy reservoir of the spin structure to speed up domain wall beyond its equilibrium value given by external driving force and damping. Such a concept of DW motion is of great interest due to recent development of spintronic devices based on domain walls, where automotion could be used to assist or prevent domain wall pinning at low driving fields1-2. In turn, most of studies so far have been devoted to the automotion invoked by DW transformations from metastable to stable states3-4; appearing at sufficiently high magnetic fields strong and enough to trigger domain wall spin structure…

PhysicsDomain wall (magnetism)Magnetic domainSpintronicsCondensed matter physicsZeeman energySingle domainMagnetostaticsMagnetic fluxMagnetic field2015 IEEE Magnetics Conference (INTERMAG)
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Dynamic domain wall chirality rectification by rotating magnetic fields

2015

We report on the observation of magnetic vortex domain wall chirality reversal in ferromagnetic rings that is controlled by the sense of rotation of a magnetic field. We use time-resolved X-ray microscopy to dynamically image the chirality-switching process and perform micromagnetic simulations to deduce the switching details from time-resolved snapshots. We find experimentally that the switching occurs within less than 4 ns and is observed in all samples with ring widths ranging from 0.5 μm to 2 μm, ring diameters between 2 μm and 5 μm, and a thickness of 30 nm, where a vortex domain wall is present in the magnetic onion state of the ring. From the magnetic contrast in the time-resolved im…

PhysicsDomain wall (magnetism)Physics and Astronomy (miscellaneous)Magnetic domainCondensed matter physicsSingle domainMagnetic susceptibilityChirality (electromagnetism)MicromagneticsVortexMagnetic fieldApplied Physics Letters
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