Recent progress in ultrafast x-ray sources helped establish x-rays as an important tool for probing lattice and magnetic dynamics initiated by femtosecond optical pulses. Here, we explore the potential of ultrashort hard x-ray pulses for driving magnetic dynamics. We use a transient grating technique in which a spatially periodic x-ray excitation pattern gives rise to material excitations at a well-defined wave vector, whose dynamics are monitored via diffraction of an optical probe pulse. The excitation of a ferrimagnetic gadolinium bismuth iron garnet film placed in an external tilted magnetic field by x-rays at the Gd L3 edge results in both magnetic and nonmagnetic transient gratings whose contributions to the diffracted signal are separated by polarization analysis. We observe the magnetization precession at both longitudinal acoustic and spin wave frequencies. An analysis with the Landau-Lifshitz-Gilbert equation indicates that the magnetization precession is driven by strain resulting from thermal expansion induced by absorbed x-rays.
Spin waves excited by hard x-ray transient gratings / P.R. Miedaner†, A.A. Maznev†, M. Biednov, M. Deb, C. Serrat, N. Berndt, P. Carrara, C. Soncini, M. Brioschi, D. Ronchetti, A. Benediktovitch, D. Fainoizzi, N. Khatu, E. Ferrari, J. Vila-Comamala, P. Zalden, W. Gawelda, M. Knoll, P. Frankenberger, L. Leroy, T. Mamyrbayev, G. Knopp, A. Sofia Morillo Candas, G. Smolentsev, S. Gerber, A. Gessini, F. Bencivenga, R. Cucini, G. Rossi, R. Mincigrucci, E. Paltanin, M. Chergui, C. Masciovecchio, S. Bonetti, Y. Uemura, X. Huang, H. Xu, F. Alves Lima, F. Ardana-Lamas, A. Madsen, R. Torre, L. Bañares, J. Szlachetko, W. Blachucki, P. Renee Bowlan, M. Bargheer, T. Feurer, R. Engel, N. Rohringer, M. Beye, C. David, U. Staub, A. Cannizzo, C. Milne, K.A. Nelson, C. Svetina. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 136:17(2026 Apr 29), pp. 176701.1-176701.10. [10.1103/zybx-dqfc]
Spin waves excited by hard x-ray transient gratings
M. Brioschi;G. Rossi;
2026
Abstract
Recent progress in ultrafast x-ray sources helped establish x-rays as an important tool for probing lattice and magnetic dynamics initiated by femtosecond optical pulses. Here, we explore the potential of ultrashort hard x-ray pulses for driving magnetic dynamics. We use a transient grating technique in which a spatially periodic x-ray excitation pattern gives rise to material excitations at a well-defined wave vector, whose dynamics are monitored via diffraction of an optical probe pulse. The excitation of a ferrimagnetic gadolinium bismuth iron garnet film placed in an external tilted magnetic field by x-rays at the Gd L3 edge results in both magnetic and nonmagnetic transient gratings whose contributions to the diffracted signal are separated by polarization analysis. We observe the magnetization precession at both longitudinal acoustic and spin wave frequencies. An analysis with the Landau-Lifshitz-Gilbert equation indicates that the magnetization precession is driven by strain resulting from thermal expansion induced by absorbed x-rays.
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