Magnetic Correlation of Spin Ice Systems(Current Topic)

Magnetic moments of R3+ ions of R2Ti2O7 (R = Ho, Dy) with large Ising anisotropy providethe problem of the geometrical frustration which is (almost) equivalent to that of solid H2O. To investigate what kind of magnetic state is realized in these systems at low temperature, we have carried out neutro...

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Bibliographic Details
Published inButsuri Vol. 57; no. 11; pp. 830 - 834
Main Authors Yasui, Yukio, Kanada, Masaki, Sato, Masatoshi, Kadowaki, Hiroaki
Format Journal Article
LanguageJapanese
Published The Physical Society of Japan 2002
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Summary:Magnetic moments of R3+ ions of R2Ti2O7 (R = Ho, Dy) with large Ising anisotropy providethe problem of the geometrical frustration which is (almost) equivalent to that of solid H2O. To investigate what kind of magnetic state is realized in these systems at low temperature, we have carried out neutron diffraction experiments on a single crystal of Ho2Ti2O7. The observedcorrelation pattern can be reproduced by the molecular field treatment and the Monte-Carlo simulation, where the dipolar interaction plays an important role. Although the degeneracy is, strictly speaking, mostly lifted due to theinteraction, the system does not exhibit themagnetic ordering. Instead, with decreasing temperature, before reaching the long range ordered state, it gradually goes into the glassy state, as a result of the coexistence of many spin clusters which have short range magnetic order with different but almost degenerated energies.
ISSN:0029-0181
2423-8872
DOI:10.11316/butsuri1946.57.830