URF-GS creates a single radiation field from visual and wireless observations via 3D Gaussian splatting to predict radio signals at any location and configuration with higher accuracy and fewer samples than prior NeRF approaches.
Roadmap on spin-wave computing,
4 Pith papers cite this work. Polarity classification is still indexing.
years
2026 4verdicts
UNVERDICTED 4representative citing papers
Induced nonlinear phase shift up to 180° in forward volume spin waves using few-milliwatt pumping power in YIG films, stronger than for surface waves.
Theoretical calculation shows hybridization between ferromagnetic resonance in the film and cyclotron resonance in the 2D electrons, resulting in anticrossing with modified frequencies and linewidths.
Patterned YIG funnel structures concentrate spin waves to enable localized second harmonic generation hundreds of micrometers from the source, verified by frequency- and spatially-resolved SNS-MOKE measurements.
citing papers explorer
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Bridging Visual and Wireless Sensing via a Unified Radiation Field for 3D Radio Map Construction
URF-GS creates a single radiation field from visual and wireless observations via 3D Gaussian splatting to predict radio signals at any location and configuration with higher accuracy and fewer samples than prior NeRF approaches.
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Induced nonlinear phase shift of forward volume spin waves in magnetic films and one-dimensional magnonic crystals
Induced nonlinear phase shift up to 180° in forward volume spin waves using few-milliwatt pumping power in YIG films, stronger than for surface waves.
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Hybridization of Ferromagnetic and Cyclotron Resonances in a Two-Dimensional Electron System on a Ferromagnetic Film
Theoretical calculation shows hybridization between ferromagnetic resonance in the film and cyclotron resonance in the 2D electrons, resulting in anticrossing with modified frequencies and linewidths.
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Spatially-Localized Second Harmonic Generation via Spin Wave Concentration in Patterned YIG Structures
Patterned YIG funnel structures concentrate spin waves to enable localized second harmonic generation hundreds of micrometers from the source, verified by frequency- and spatially-resolved SNS-MOKE measurements.