Observation of time-reversal symmetry breaking in the band structure of altermagnetic RuO 2

Altermagnets are an emerging elementary class of collinear magnets. Unlike ferromagnets, their distinct crystal symmetries inhibit magnetization while, unlike antiferromagnets, they promote strong spin polarization in the band structure. The corresponding unconventional mechanism of time-reversal sy...

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Published in:Science advances 2024-02, Vol.10 (5), p.eadj4883
Main Authors: Fedchenko, Olena, Minár, Jan, Akashdeep, Akashdeep, D'Souza, Sunil Wilfred, Vasilyev, Dmitry, Tkach, Olena, Odenbreit, Lukas, Nguyen, Quynh, Kutnyakhov, Dmytro, Wind, Nils, Wenthaus, Lukas, Scholz, Markus, Rossnagel, Kai, Hoesch, Moritz, Aeschlimann, Martin, Stadtmüller, Benjamin, Kläui, Mathias, Schönhense, Gerd, Jungwirth, Tomas, Hellenes, Anna Birk, Jakob, Gerhard, Šmejkal, Libor, Sinova, Jairo, Elmers, Hans-Joachim
Format: Article
Language:English
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Summary:Altermagnets are an emerging elementary class of collinear magnets. Unlike ferromagnets, their distinct crystal symmetries inhibit magnetization while, unlike antiferromagnets, they promote strong spin polarization in the band structure. The corresponding unconventional mechanism of time-reversal symmetry breaking without magnetization in the electronic spectra has been regarded as a primary signature of altermagnetism but has not been experimentally visualized to date. We directly observe strong time-reversal symmetry breaking in the band structure of altermagnetic RuO by detecting magnetic circular dichroism in angle-resolved photoemission spectra. Our experimental results, supported by ab initio calculations, establish the microscopic electronic structure basis for a family of interesting phenomena and functionalities in fields ranging from topological matter to spintronics, which are based on the unconventional time-reversal symmetry breaking in altermagnets.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.adj4883