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Paper detail

Ultrafast element- and depth-resolved magnetization dynamics probed by transverse magneto-optical Kerr effect spectroscopy in the soft x-ray range

We report on time- and angle-resolved transverse magneto-optical Kerr effect spectroscopy in the soft x-ray range that, by analysis via polarization-dependent magnetic scattering simulations, allows us to determine the spatio-temporal and element-specific evolution of femtosecond laser-induced spin dynamics in nanostructured magnetic materials. In a ferrimagnetic GdFe thin film system, we correlate a reshaping spectrum of the magneto-optical Kerr signal to depth-dependent magnetization dynamics and disentangle contributions due to non-equilibrium electron transport and nanoscale heat diffusion on their intrinsic time scales. Our work provides a quantitative insight into light-driven spin dynamics occurring at buried interfaces of complex magnetic heterostructures, which can be tailored and functionalized for future opto-spintronic devices.

preprint2022arXivOpen access
Martin HenneckeDaniel SchickThemistoklis SidiropoulosFelix WillemsAnke HeilmannMartin BockLutz EhrentrautDieter EngelPiet HessingBastian PfauMartin SchmidbauerAndreas FurchnerMatthias SchnuererClemens von Korff SchmisingStefan Eisebitt
cond-mat.mtrl-sci
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Martin HenneckeDaniel SchickThemistoklis SidiropoulosFelix WillemsAnke HeilmannMartin BockLutz EhrentrautDieter EngelPiet HessingBastian PfauMartin SchmidbauerAndreas FurchnerMatthias SchnuererClemens von Korff SchmisingStefan Eisebitt

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