Abstract
We present a method to measure continuous-wave ferromagnetic resonance (FMR) spectra based on the core-level absorption of circularly polarized x rays. The technique is demonstrated by using a monochromatic x-ray beam incident on an yttrium-iron-garnet sample excited by a microwave field at 2.47 GHz. FMR spectra are obtained by monitoring the x-ray absorption intensity at the photon energy corresponding to the maximum of the magnetic circular dichroism effect at the iron L2,3 edges as a function of applied magnetic field. The x-ray FMR signal is shown to be energy dependent, which makes the technique element sensitive and opens up new possibilities to perform element-resolved FMR in magnetic alloys and multilayers. © 2005 American Institute of Physics.
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CITATION STYLE
Boero, G., Rusponi, S., Bencok, P., Popovic, R. S., Brune, H., & Gambardella, P. (2005). X-ray ferromagnetic resonance spectroscopy. Applied Physics Letters, 87(15), 1–3. https://doi.org/10.1063/1.2089180
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