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  Neethirajan, J.; Daurer, B.J.; Martínez, M.D.P.; Hrabec, A.; Turnbull, L.; Yamamoto, R.; Ferreira, M.R.; Stefancic, A.; Mayoh, D.A.; Balakrishnan, G.; Pei, Z.; Xue, P.; Chang, L.; Ringe, E.; Harrison, R.; Valencia, S.; Kazemian, M.; Kaulich, B.; Donnelly, C.: Soft X-Ray Phase Nanomicroscopy of Micrometer-Thick Magnets. Physical Review X 14 (2024), p. 031028/1-20

10.1103/physrevx.14.031028
Open Access Version

Abstract:
Imaging of nanoscale magnetic textures within extended material systems is of critical importance to both fundamental research and technological applications. While high-resolution magnetic imaging of thin nanoscale samples is well established with electron and soft x-ray microscopy, the extension to micrometer-thick systems currently requires hard x rays, which limits high-resolution imaging to rare-earth magnets. Here, we overcome this limitation by establishing soft x-ray magnetic imaging of micrometer-thick systems using the pre-edge phase x-ray magnetic circular dichroism signal, thus making possible the study of a wide range of magnetic materials. By performing dichroic spectroptychography, we demonstrate high spatial resolution imaging of magnetic samples up to 1.7  μ⁢m thick, an order of magnitude higher than conventionally possible with soft x-ray absorption-based techniques. We demonstrate the applicability of the technique by harnessing the pre-edge phase to image thick chiral helimagnets, and naturally occurring magnetite particles, gaining insight into their three-dimensional magnetic configuration. This new regime of magnetic imaging makes possible the study of extended non-rare-earth systems that have until now been inaccessible, including magnetic textures for future spintronic applications, non-rare-earth permanent magnets for energy harvesting, and the magnetic configuration of giant magnetofossils.