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Real-space and reciprocal-space topology in the Eu(Ga_(1-x)Al_x)₄ square net system

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arxiv 2302.03076 v1 pith:3GSOQMK3 submitted 2023-02-06 cond-mat.mtrl-sci cond-mat.str-el

Real-space and reciprocal-space topology in the Eu(Ga_(1-x)Al_x)₄ square net system

classification cond-mat.mtrl-sci cond-mat.str-el
keywords hallmeasurementsstatetopologyrevealeffectfieldintermediate
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Magnetotransport measurements on the centrosymetric square-net Eu(Ga$_{1-x}$Al$_x$)$_4$ compounds reveal evidence for both reciprocal- and real-space topology. For compositions $0.50 \leq x \leq 0.90$, several intermediate field phases are found by magnetization measurements when $H \parallel c$, where a maximum in the topological Hall effect (THE) is observed, pointing to the existence of topological (real-space topology) or non-coplanar spin textures. For $0.25 \leq x \leq 0.39$, magnetization measurements reveal an intermediate field state, but no transition is visible in the Hall measurements. For $x = 0.15$, only one magnetic transition occurs below the N\'eel temperature $T_N$, and no intermediate field spin reorientations are observed. The Hall effect varies smoothly before the spin-polarized (SP) state. However, in the SP state, Hall measurements reveal a large anomalous Hall effect (AHE) for all compositions, a consequence of reciprocal-space topology. Density functional theory calculations in the paramagnetic state indeed reveal a Dirac point that lies very near the Fermi energy, which is expected to split into Weyl nodes in the SP state, thereby explaining the observed AHE. These results suggest the Eu(Ga$_{1-x}$Al$_x$)$_4$ family is a rare material platform where real- and reciprocal-space topology exist in a single material platform.

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