Cobalt doping converts FeSb2 into a metallic altermagnet with infrared-visible spin-split bands persisting to room temperature.
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3 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 3representative citing papers
CeCoGe3 is a topological nodal line Kondo semimetal in which correlations and spin-orbit coupling stabilize flat nodal lines near the Fermi level that may mediate pressure-induced superconductivity.
La5Ni3O11 shows layer-selective physics with the single layer near a Mott instability and the bilayer dominating low-energy states, yielding an electronic structure that closely resembles the bilayer La3Ni2O7.
citing papers explorer
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From Narrow-gap Semiconductor to Metallic Altermagnet: Optical Fingerprints of Co-Doped FeSb2
Cobalt doping converts FeSb2 into a metallic altermagnet with infrared-visible spin-split bands persisting to room temperature.
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Flat Topological Nodal Lines in Heavy-Fermion Compound CeCoGe$_3$
CeCoGe3 is a topological nodal line Kondo semimetal in which correlations and spin-orbit coupling stabilize flat nodal lines near the Fermi level that may mediate pressure-induced superconductivity.
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Correlated electronic structure of the alternating monolayer-bilayer nickelate La$_{5}$Ni$_{3}$O$_{11}$
La5Ni3O11 shows layer-selective physics with the single layer near a Mott instability and the bilayer dominating low-energy states, yielding an electronic structure that closely resembles the bilayer La3Ni2O7.