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Neutron scattering study of commensurate magnetic ordering in single crystal CeSb₂

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arxiv 1902.08000 v1 pith:MTQNI42T submitted 2019-02-21 cond-mat.mtrl-sci cond-mat.str-el

Neutron scattering study of commensurate magnetic ordering in single crystal CeSb₂

classification cond-mat.mtrl-sci cond-mat.str-el
keywords fieldmagneticcesbneutronscatteringtemperaturetransitionanomaly
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Temperature and field-dependent magnetization $M(H,T)$ measurements and neutron scattering study of a single crystal CeSb$_2$ are presented. Several anomalies in the magnetization curves have been confirmed at low magnetic field, i.e., 15.6 K, 12 K, and 9.8 K. These three transitions are all metamagnetic transitions (MMT), which shift to lower temperatures as the magnetic field increases. The anomaly at 15.6 K has been suggested as paramagnetic (PM) to ferromagnetic (FM) phase transition. The anomaly located at around 12 K is antiferromagnetic-like transition, and this turning point will clearly split into two when the magnetic field $H\geq0.2$ T. Neutron scattering study reveals that the low temperature ground state of CeSb$_2$ orders antiferromagnetically with commensurate propagation wave vectors $\textbf{k}=(-1,\pm1/6,0)$ and $\textbf{k}=(\pm1/6,-1,0)$, with N\'eel temperature $T_N\sim9.8$ K. This transition is of first-order, as shown in the hysteresis loop observed by the field cooled cooling (FCC) and field cooled warming (FCW) processes.

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