Micromagnetic simulations show that moving domain walls in a Permalloy racetrack above YIG can shift the phase of Damon-Eshbach spin waves by up to ±90 degrees via stray-field-induced wavelength changes.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
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
-
Spin-Wave Phase Shifter Controlled by a Domain Wall Racetrack
Micromagnetic simulations show that moving domain walls in a Permalloy racetrack above YIG can shift the phase of Damon-Eshbach spin waves by up to ±90 degrees via stray-field-induced wavelength changes.
-
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.