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Observation of evanescent spin waves in the magnetic dipole regime

Keita Matsumoto, Isao Yoshimine, Kosei Himeno, Tsutomu Shimura, Takuya Satoh

2020Physical review. B./Physical review. B15 citationsDOIOpen Access PDF

Abstract

We observed spin-wave transmission through an air gap that works as a prohibited region. The spin waves were excited by circularly polarized pump pulses via the inverse Faraday effect, and their spatial propagation was detected through the Faraday effect of probe pulses using a pump-probe imaging technique. The experimentally observed spin-wave transmission was reproduced using numerical calculations with a Green's function method and micromagnetic simulation. We found that the amplitude of the spin waves decays exponentially in the air gap, which indicates the existence of evanescent spin waves in the magnetic dipole regime. This finding will pave the way for controllable amplitudes and phases of spin waves propagating through an artificial magnonic crystal.

Topics & Concepts

MagnonicsSpin wavePhysicsCondensed matter physicsAmplitudeFaraday cageDipoleFaraday effectExcited stateOpticsSpin (aerodynamics)Spin polarizationSpin Hall effectMagnetic fieldAtomic physicsFerromagnetismElectronQuantum mechanicsThermodynamicsMagnetic properties of thin filmsQuantum and electron transport phenomenaMagneto-Optical Properties and Applications
Observation of evanescent spin waves in the magnetic dipole regime | Litcius