Small-angle X-ray resonant magnetic scattering at the Co M2,3 and L3 edges observed with photoemission electron microscopy

Abstract

X-ray magnetic circular dichroism is an efficient contrast mechanism allowing for a direct sensitivity to magnetization. Combined with an imaging technique such as photoemission electron microscopy, it has been successfully applied to high-resolution investigations of ferromagnetic thin films but also of three-dimensional systems thanks to the transmission-type contrast in their shadow. Our focus in this work is the wave-optics scattering pattern that can be observed near such a shadow's rim. Taking advantage of non-uniform magnetic states present in near-micron-size Co1-xGdx beads, we first show how X-ray resonant magnetic scattering affects the Fresnel diffraction at the Co L3 edge. In order to confirm this observation, we then turn to the Co M2,3 edges. There, we measure magnetic scattering patterns with a significantly increased spatial extent (due to the larger wavelength), despite the signal's weakness. The patterns' origin is supported by a comparison between our experimental data and a simple analytical model, then numerical simulations.