Metamagnetism and crystal-field splitting in pseudohexagonal CeRh3Si2

Andrea Amorese, Dmitry Khalyavin, Kurt Kummer, Nicholas B. Brookes, Clemens Ritter, Oksana Zaharko, Camilla Buhl Larsen, Orest Pavlosiuk, Adam P. Pikul, Dariusz Kaczorowski, Matthias Gutmann, Andrew T. Boothroyd, Andrea Severing, Devashibhai T. Adroja

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7 Citations (Scopus)

Abstract

CeRh3Si2 has been reported to exhibit metamagnetic transitions below 5 K, a giant crystal field splitting, and anisotropic magnetic properties from single crystal magnetization and heat capacity measurements. Here we report results of neutron and x-ray scattering studies of the magnetic structure and crystal-field excitations to further understand the magnetism of this compound. Inelastic neutron scattering and resonant inelastic x-ray scattering reveal a Jz=1/2 ground state for Ce when considering the crystallographic a direction as quantization axis, thus explaining the anisotropy of the static susceptibility. Furthermore, we find a total splitting of 78 meV for the J=5/2 multiplet. The neutron diffraction study in zero field reveals that, on cooling from the paramagnetic state, the system first orders at TN1=4.7K in a longitudinal spin density wave with ordered Ce moments along the b axis (i.e., the [0 1 0] crystal direction) and an incommensurate propagation vector k=(0,0.43,0). Below the lower-temperature transition TN2=4.48K, the propagation vector locks to the commensurate value k=(0,0.5,0), with a so-called lock-in transition. Our neutron diffraction study in applied magnetic field Hb axis shows a change in the commensurate propagation vector and development of a ferromagnetic component at H=3kOe, followed by a series of transitions before the fully field-induced ferromagnetic phase is reached at H=7kOe. This explains the nature of the steps previously reported in field-dependent magnetization measurements. A very similar behavior is also observed for the H [0 1 1] crystal direction.

Original languageEnglish
Article number125119
JournalPhysical Review B
Volume105
Issue number12
DOIs
Publication statusPublished - 15 Mar 2022

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics

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