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Size Effects in the Verwey Transition of Nanometer-Thick Micrometer-Wide Magnetite Crystals

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Ruiz-Gómez,  Sandra
Spin3D: Three-Dimensional Magnetic Systems, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Citation

del Campo, A., Ruiz-Gómez, S., Trapero, E. M., Granados-Miralles, C., Quesada, A., Foerster, M., et al. (2022). Size Effects in the Verwey Transition of Nanometer-Thick Micrometer-Wide Magnetite Crystals. The Journal of Physical Chemistry C, 126, 13755-13761. doi:10.1021/acs.jpcc.2c03391.


Cite as: https://hdl.handle.net/21.11116/0000-000A-FCE1-C
Abstract
We have monitored the Verwey transition in micrometer-wide, nanometer-thick magnetite islands on epitaxial Ru films on Al2O3(0001) using Raman spectroscopy. The islands have been grown by high-temperature oxygen-assisted molecular beam epitaxy. Below 100 K and for thicknesses above 20 nm, the Raman spectra correspond to those observed in bulk crystals and high-quality thin films for the sub-Verwey magnetite structure. At room temperature, the width of the cubic phase modes is similar to the best reported for bulk crystals, indicating a similar strength of electron-phonon interaction. The evolution of the Raman spectra upon cooling suggests that for islands thicker than 20 nm, structural changes appear first at temperatures starting at 150 K while the Verwey transition itself takes place at around 115 K. However, islands thinner than 20 nm show very different Raman spectra, indicating that while a transition takes place, the charge order of the ultrathin islands differs markedly from their thicker counterparts. © 2022 The Authors. Published by American Chemical Society.