Proposes covariance magnetometry to detect anisotropic magnetic noise that distinguishes vortex motion (perpendicular drift via Magnus force) from quasiparticle transport in thin-film superconductors.
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6 Pith papers cite this work. Polarity classification is still indexing.
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SkX-2 skyrmion crystal with two topological charges per cell is stabilized in the Heisenberg triangular lattice with scalar chirality.
An acoustic phononic crystal was engineered to host skyrmion-like topological edge states that propagate robustly along domain walls while locked to valley and orbital angular momentum degrees of freedom.
Non-uniform electric fields from charged tips can create, drive, annihilate Néel skyrmions and more complex textures like skyrmioniums.
Generalized ML force fields reproduce non-collinear magnetic orders on lattices and predict voltage-driven domain-wall motion in itinerant magnets using extensions to nonequilibrium torques.
Frustrated out-of-plane DMI favors atomic-scale 3q magnetic textures in Fe3GeXTe monolayers at moderate DMI scaling factors, evolving toward nanoskyrmion-like states at higher amplitudes.
citing papers explorer
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Detecting vortex motion through spatially correlated nonequilibrium noise
Proposes covariance magnetometry to detect anisotropic magnetic noise that distinguishes vortex motion (perpendicular drift via Magnus force) from quasiparticle transport in thin-film superconductors.
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Properties of the skyrmion crystal SkX-2 in the Heisenberg triangular lattice with scalar chirality
SkX-2 skyrmion crystal with two topological charges per cell is stabilized in the Heisenberg triangular lattice with scalar chirality.
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Acoustic quantum skyrmion-valley Hall effect
An acoustic phononic crystal was engineered to host skyrmion-like topological edge states that propagate robustly along domain walls while locked to valley and orbital angular momentum degrees of freedom.
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Manipulation of magnetic skyrmions by non-uniform electric fields
Non-uniform electric fields from charged tips can create, drive, annihilate Néel skyrmions and more complex textures like skyrmioniums.
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Machine-learning modeling of magnetization dynamics in quasi-equilibrium and driven metallic spin systems
Generalized ML force fields reproduce non-collinear magnetic orders on lattices and predict voltage-driven domain-wall motion in itinerant magnets using extensions to nonequilibrium torques.
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Frustrated out-of-plane Dzyaloshinskii-Moriya interaction and the onset of atomic-scale 3$q$ magnetic textures in 2D Fe$_{3}$GeXTe (X = Te, Se, S) monolayers
Frustrated out-of-plane DMI favors atomic-scale 3q magnetic textures in Fe3GeXTe monolayers at moderate DMI scaling factors, evolving toward nanoskyrmion-like states at higher amplitudes.