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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2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Theory using dynamical high-temperature expansion and optical-lattice hard-core boson experiments show excellent agreement on spin diffusion constants in the finite-temperature square-lattice XY model.
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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Finite-temperature spin diffusion in the two-dimensional XY model
Theory using dynamical high-temperature expansion and optical-lattice hard-core boson experiments show excellent agreement on spin diffusion constants in the finite-temperature square-lattice XY model.