The investigation of spin waves provides fundamental insights into magnetic materials and is essential for advancing spintronic and magnonic technologies. The Transient Grating (TG) technique, a four-wave mixing method, has been widely used to study collective excitations at controlled wave vectors on the micron to nanometer scale. This study presents an all-optical TG approach for exciting standing dipolar spin waves with a controlled in-plane wave vector in a ferrimagnetic Co78Gd22 thin film, with potential applicability to a broad range of materials. Spin waves with a wavelength of 2.5 μm are excited by the interference of two coherent laser pulses on the sample surface and probed through the diffraction of a third laser pulse. Polarization analysis separates magnetic and thermoelastic signals and enables time-resolved measurements of the spin-wave dynamics.
Excitation of spin waves in ferrimagnetic alloy via optical Transient Grating Spectroscopy / M. Brioschi, P. Carrara, N. Ninad Khatu, N. Berndt, P.R. Miedaner, D. Dagur, G. Vinai, D. Engel, C. Von Korff Schmising, S. Bonetti, K.A. Nelson, G. Panaccione, G. Rossi, A.A. Maznev, R. Cucini. - In: ADVANCED PHOTONICS RESEARCH. - ISSN 2699-9293. - 7:2(2026 Feb), pp. e202500233.1-e202500233.5. [10.1002/adpr.202500233]
Excitation of spin waves in ferrimagnetic alloy via optical Transient Grating Spectroscopy
M. BrioschiPrimo
;G. Rossi;
2026
Abstract
The investigation of spin waves provides fundamental insights into magnetic materials and is essential for advancing spintronic and magnonic technologies. The Transient Grating (TG) technique, a four-wave mixing method, has been widely used to study collective excitations at controlled wave vectors on the micron to nanometer scale. This study presents an all-optical TG approach for exciting standing dipolar spin waves with a controlled in-plane wave vector in a ferrimagnetic Co78Gd22 thin film, with potential applicability to a broad range of materials. Spin waves with a wavelength of 2.5 μm are excited by the interference of two coherent laser pulses on the sample surface and probed through the diffraction of a third laser pulse. Polarization analysis separates magnetic and thermoelastic signals and enables time-resolved measurements of the spin-wave dynamics.
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Advanced Photonics Research - 2026 - Brioschi - Excitation of Spin Waves in Ferrimagnetic Alloy via Optical Transient.pdf
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