Abstract
To know the properties of a particle or a wave, one should measure how its energy changes with its momentum. The relation between them is called the dispersion relation, which encodes essential information of the kinetics. In a magnet, the wave motion of atomic spins serves as an elementary excitation, called a spin wave, and behaves like a fictitious particle. Although the dispersion relation of spin waves governs many of the magnetic properties, observation of their entire dispersion is one of the challenges today. Spin waves whose dispersion is dominated by magnetostatic interaction are called pure-magnetostatic waves, which are still missing despite of their practical importance. Here, we report observation of the band dispersion relation of pure-magnetostatic waves by developing a table-top all-optical spectroscopy named spin-wave tomography. The result unmasks characteristics of pure-magnetostatic waves. We also demonstrate time-resolved measurements, which reveal coherent energy transfer between spin waves and lattice vibrations.
Highlights
To know the properties of a particle or a wave, one should measure how its energy changes with its momentum
Thanks to a recently developed technique to acquire absolute Faraday rotation angles as a function of time and position[26], we report here the dispersion structures of pure-magnetostatic spin waves observed with spin-wave tomography (SWaT)
SWaT can be employed as a new technique for the dispersion spectroscopy of pure-magnetostatic waves
Summary
To know the properties of a particle or a wave, one should measure how its energy changes with its momentum. Thanks to a recently developed technique to acquire absolute Faraday rotation angles as a function of time and position[26], we report here the dispersion structures of pure-magnetostatic spin waves observed with SWaT.
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