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Dualism of the 4f electrons and high-temperature antiferromagnetism of the heavy-fermion compound YbCoC$_{2}$

We report on the first study of the noncentrosymmetric ternary carbide YbCoC$_{2}$. Our magnetization, specific heat, resistivity and neutron diffraction measurements consistently show that the system behaves as a heavy-fermion compound, displaying an amplitude-modulated magnetic structure below the Néel temperature reaching $T_{N}$ = 33 K under pressure. Such a large value, being the highest among the Yb-based systems, is explained in the light of our ab initio calculations, which show that the 4f electronic states of Yb have a dual nature -- i.e., due to their strong hybridization with the 3d states of Co, 4f states expose both localized and itinerant properties.

preprint2020arXivOpen access
D. A. SalamatinN. MartinV. A. SidorovN. M. ChtchelkatchevM. V. MagnitskayaA. E. PetrovaI. P. ZibrovL. N. FomichevaJing GuoCheng HuangLiling SunA. V. Tsvyashchenko
cond-mat.str-elcond-mat.mtrl-sci
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Open access12 authors2 topics
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D. A. SalamatinN. MartinV. A. SidorovN. M. ChtchelkatchevM. V. MagnitskayaA. E. PetrovaI. P. ZibrovL. N. FomichevaJing GuoCheng HuangLiling SunA. V. Tsvyashchenko

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