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Observation of magnetic helicoidal dichroism with extreme ultraviolet light vortices

We report on the experimental evidence of magnetic helicoidal dichroism, observed in the interaction of an extreme ultraviolet vortex beam carrying orbital angular momentum with a magnetic vortex. Numerical simulations based on classical electromagnetic theory show that this dichroism is based on the interference of light modes with different orbital angular momenta, which are populated after the interaction between the light phase chirality and the magnetic topology. This observation gives insight into the interplay between orbital angular momentum and magnetism, and sets the framework for the development of new analytical tools to investigate ultrafast magnetization dynamics.

preprint2021arXivOpen access
Mauro FanciulliMatteo PancaldiEmanuele PedersoliMekha VimalDavid BresteauMartin LuttmannDario De AngelisPrimož Rebernik RibičBenedikt RösnerChristian DavidCarlo SpezzaniMichele ManfreddaRicardo SousaIoan-Lucian PrejbeanuLaurent VilaBernard DienyGiovanni De NinnoFlavio CapotondiMaurizio SacchiThierry Ruchon
physics.optics
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Open access20 authors1 topic
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Mauro FanciulliMatteo PancaldiEmanuele PedersoliMekha VimalDavid BresteauMartin LuttmannDario De AngelisPrimož Rebernik RibičBenedikt RösnerChristian DavidCarlo SpezzaniMichele ManfreddaRicardo SousaIoan-Lucian PrejbeanuLaurent VilaBernard DienyGiovanni De NinnoFlavio CapotondiMaurizio SacchiThierry Ruchon

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