<p>A fundamental question in condensed matter physics&#xa0;concerns how topological electronic states are influenced by many-body correlations, and magnetic Weyl semimetals represent an important material platform to address this problem. However, the magnetic structures realized in these materials are limited, and in particular, no clear example of an undistorted helimagnetic state has been definitively identified. Here, we report clear evidence of a harmonic helimagnetic cycloid with an incommensurate magnetic propagation vector <b>Q</b> in the Weyl semimetal GdAlSi via resonant elastic X-ray scattering, including rigorous polarization analysis. This cycloidal structure is consistent with the Dzyaloshinskii–Moriya interaction prescribed by the polar crystal structure of GdAlSi. Upon applying a magnetic field, the cycloid undergoes a transition to a novel multi-<b>Q</b> state. This field-induced, noncoplanar texture is consistent with our numerical spin model, which incorporates the&#xa0;Dzyaloshinskii–Moriya interaction and, crucially, anisotropic exchange&#xa0;interactions. The perfectly harmonic Weyl helimagnet GdAlSi serves as a prototypical platform to study electronic correlation effects in periodically modulated Weyl semimetals.</p>

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Perfectly harmonic spin cycloid and multi-Q textures in the Weyl semimetal GdAlSi

  • Ryota Nakano,
  • Rinsuke Yamada,
  • Juba Bouaziz,
  • Maurice Colling,
  • Masaki Gen,
  • Kentaro Shoriki,
  • Yoshihiro Okamura,
  • Akiko Kikkawa,
  • Ryo Misawa,
  • Priya R. Baral,
  • Shunsuke Kitou,
  • Yuiga Nakamura,
  • Hiroyuki Ohsumi,
  • Yoshikazu Tanaka,
  • Hajime Sagayama,
  • Hironori Nakao,
  • Yuki Ishihara,
  • Kamini Gautam,
  • Oscar Fabelo,
  • Yasujiro Taguchi,
  • Youtarou Takahashi,
  • Masashi Tokunaga,
  • Taka-hisa Arima,
  • Yoshinori Tokura,
  • Ryotaro Arita,
  • Jan Masell,
  • Satoru Hayami,
  • Max Hirschberger

摘要

A fundamental question in condensed matter physics concerns how topological electronic states are influenced by many-body correlations, and magnetic Weyl semimetals represent an important material platform to address this problem. However, the magnetic structures realized in these materials are limited, and in particular, no clear example of an undistorted helimagnetic state has been definitively identified. Here, we report clear evidence of a harmonic helimagnetic cycloid with an incommensurate magnetic propagation vector Q in the Weyl semimetal GdAlSi via resonant elastic X-ray scattering, including rigorous polarization analysis. This cycloidal structure is consistent with the Dzyaloshinskii–Moriya interaction prescribed by the polar crystal structure of GdAlSi. Upon applying a magnetic field, the cycloid undergoes a transition to a novel multi-Q state. This field-induced, noncoplanar texture is consistent with our numerical spin model, which incorporates the Dzyaloshinskii–Moriya interaction and, crucially, anisotropic exchange interactions. The perfectly harmonic Weyl helimagnet GdAlSi serves as a prototypical platform to study electronic correlation effects in periodically modulated Weyl semimetals.