CdEr2Se4: a new erbium spin ice system in a spinel structure

CdEr2Se4: a new erbium spin ice system in a spinel structure

Here we present a detailed study of the spinel CdEr2Se4 and show it to be a new instance of spin ice, the first one in an erbium material and the first one in a spinel. Definitive experimental evidence comes from the temperature dependence of the magnetic entropy, which shows an excellent agreement...

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Veröffentlicht in:Physical review letters 2010-06, Vol.104 (24), p.247203-247203
Hauptverfasser: Lago, J, Zivković, I, Malkin, B Z, Rodriguez Fernandez, J, Ghigna, P, Dalmas de Réotier, P, Yaouanc, A, Rojo, T
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Sprache:eng
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Zusammenfassung:Here we present a detailed study of the spinel CdEr2Se4 and show it to be a new instance of spin ice, the first one in an erbium material and the first one in a spinel. Definitive experimental evidence comes from the temperature dependence of the magnetic entropy, which shows an excellent agreement with the predicted behavior for a spin ice state. Crystal field calculations demonstrate that the change in the local environment from that of the titanates completely alters the rare-earth anisotropy giving rise, in the case of Er3+, to the required Ising anisotropy, when Er2Ti2O7 behaves as an XY antiferromagnet. This finding opens up the possibility of new exotic ground states within the CdR2Se4 and CdR2Se4 families.
ISSN:1079-7114
DOI:10.1103/PhysRevLett.104.247203