Crystal field excitations in the cubic compound Ce3Rh4Sn13

The recent heat capacity measurements of Ce3Rh4Sn13 have revealed a broad peak at 1K with an entropy of 3Rln(2) per f.u., but no clear sign of any magnetic ordering down to 100mK. In order to understand this anomalous heat capacity behaviour of Ce3Rh4Sn13, we have carried out low- and high-energy in...

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Bibliographic Details
Published in:Physica. B, Condensed matter Condensed matter, 2008-04, Vol.403 (5-9), p.898-899
Main Authors: ADROJA, D. T, STRYDOM, A. M, MURANI, A. P, KOCKELMANN, W. A, FRAILE, A
Format: Article
Language:English
Subjects:
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Exact sciences and technology
Magnetic properties and materials
Physics
Spin arrangements in magnetically ordered materials (including neutron and spin-polarized electron studies, synchrotron-source x-ray scattering, etc.)
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Summary:The recent heat capacity measurements of Ce3Rh4Sn13 have revealed a broad peak at 1K with an entropy of 3Rln(2) per f.u., but no clear sign of any magnetic ordering down to 100mK. In order to understand this anomalous heat capacity behaviour of Ce3Rh4Sn13, we have carried out low- and high-energy inelastic neutron scattering measurements. Our high-energy studies reveal two well-resolved crystal field (CF) excitations at 9meV and 38meV. The observation of two CF excitations in the cubic structure of Ce3Rh4Sn13 could be explained on the basis of tetragonal point symmetry of the Ce ions. Interestingly, the low-energy measurements apparently show, or are best described by, a quasi-elastic peak and an inelastic peak at 0.2meV at 1.5K, both of Lorentzian shape. We attribute the low-energy peak to Zeeman splitting of the ground state doublet, in the presence of short range magnetic ordering. Further, the low-energy peak explains the observed anomaly in the heat capacity.
ISSN:0921-4526
1873-2135
DOI:10.1016/j.physb.2007.10.246