@article{MAXYMUS,
author = "J. Grafe and M. Weigand and B. Van Waeyenberge and A. Gangwar and F. Gross and F. Lisiecki and Rychły, Justyna and H. Stoll and N. Trager and J. Forster and F. Stobiecki and J. Dubowik and Kłos, Jarosław W. and Krawczyk, Maciej and C. H. Back and E. J. Goering and G. Schutz",
abstract = "Magnonics research, i.e. the manipulation of spin waves for information processing, is a topic of intense research
interest in the past years. FMR, BLS and MOKE measurements lead to tremendous success and advancement
of the eld. However, these methods are limited in their spatial resolution. X-ray microscopy opens up a way
to push to spatial resolutions below 100 nm. Here, we discuss the methodology of STXM for pump-probe data
acquisition with single photon counting and arbitrary excitation patterns. Furthermore, we showcase these
capabilities using two magnonic crystals as examples: an antidot lattice and a Fibonacci quasicrystal.",
doi = "10.1117/12.2530326",
journal = "Proc. SPIE 11090, Spintronics XII",
keywords = "spin waves, visualisation",
pages = "1109025",
title = "{V}isualizing nanoscale spin waves using {MAXYMUS}",
url = "https://www.spiedigitallibrary.org/conference-proceedings-of-spie/11090/1109025/Visualizing-nanoscale-spin-waves-using-MAXYMUS/10.1117/12.2530326.short",
volume = "XII",
year = "2019",
}