50 research outputs found

    The pseudo‐brookite spin‐glass system studied by means of muon spin relaxation

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    Zero-field muon spin relaxation (”SR) experiments have been performed on the spin glass Fe1.75Ti1.25O5. Above the spin-glass temperature of 44 K a distinct exponential ”SR rate (Âż) is observed, while below Tg a square-root exponential decay occurs, indicating fast spin fluctuations. Near 8 K, a maximum in Âż is indicative of transverse spin ordering. The low Âż values and the sharp Âż peak at Tg are very promising for the study of spin freezing models like the Vogel–Fulcher law or the power law

    SPIN ROTATION IN GdCo2

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    Une Ă©tude de l'effet Mössbauer de 57Fe dans GdCo2 est prĂ©sentĂ©e. Les mesures rĂ©vĂšlent un spin de l'axe cubique [100] en dessous de 200 K, Ă  l'axe [110] au-dessus de 290 K. Dans l'intervalle entre ces deux tempĂ©ratures, la magnĂ©tisation prend des directions non majeures. Le spin dans GdCo2 peut ĂȘtre expliquĂ© par le traitement phĂ©nomĂ©nologique de l'Ă©nergie anisotropique magnĂ©to-cristalline.A Mössbauer study of 57Fe in GdCo2 is reported. The measurements reveal a spin rotation from the [100] cubic axis below 200 K, to the [110] axis above 290 K. Over the spin rotation temperature interval, the easy magnetization assumes non-major directions. The spin rotation in GdCo2 can be acounted for in terms of a phenomenological treatment of the magnetocrystalline anisotropy energy

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    Mössbauer Effect of Ir 193

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