GdTi3Bi4 shows a tunable bifurcation of in-plane magnetic anisotropy at 2 K into two 7-degree-offset orientations, revealing hidden bi-oriented AFM order and three distinct domain phases under transverse magnetic fields.
Zhang et al., arXiv 2412.16815 (2024)
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In the kagome metal GdTi3Bi4, rotating magnetic fields drive hysteretic switching between two 60-degree-apart CDW domain orientations, mediated by antiferromagnetic spin reorientation via spin-lattice coupling.
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Tunable bifurcation of magnetic anisotropy and bi-oriented antiferromagnetic order in kagome metal GdTi3Bi4
GdTi3Bi4 shows a tunable bifurcation of in-plane magnetic anisotropy at 2 K into two 7-degree-offset orientations, revealing hidden bi-oriented AFM order and three distinct domain phases under transverse magnetic fields.
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Spin-mediated hysteretic switching of unidirectional charge density waves by rotating magnetic fields
In the kagome metal GdTi3Bi4, rotating magnetic fields drive hysteretic switching between two 60-degree-apart CDW domain orientations, mediated by antiferromagnetic spin reorientation via spin-lattice coupling.