We report on an experimental investigation of the magnetic and structural properties of the Y2xZnxRu2O7 pyrochlore system as a function of the Zn doping in the range 0.00 < x < 0.20. Magnetization and muon spin relaxation measurements show that the antiferromagnetic transition typical of the undoped compound at TN = 77 K is slightly reduced and broadened in the Zn doped sample. Extended X-ray absorption fine structure measurements show a peak in the Ru–O(1) first shell Debye–Waller factor at a temperature TDW = TN, giving evidence for a strong magnetoelastic coupling detected up to x = 0.10. A local precursor order–disorder transition at T* > TN is also observed up to x = 0.10. For x > 0.10 these local structural features are hidden due to the increasing local lattice distortion induced by the Zn2+ dopant whereas the magnetic transition is still present.
Evidence of a correlation between magnetic and structural transitions in Y2xZnxRu2O7 pyrochlore compounds / G. Berti, S. Sanna, R. Ruiz Bustos, J. van Duijn, A. Brambilla, A. Munoz Noval, F. Demartin, L. Duò, C. Castellano. - In: RSC ADVANCES. - ISSN 2046-2069. - 5:122(2015 Nov 18), pp. 100809-100815. [10.1039/c5ra20878e]
Evidence of a correlation between magnetic and structural transitions in Y2xZnxRu2O7 pyrochlore compounds
F. Demartin;C. Castellano
2015
Abstract
We report on an experimental investigation of the magnetic and structural properties of the Y2xZnxRu2O7 pyrochlore system as a function of the Zn doping in the range 0.00 < x < 0.20. Magnetization and muon spin relaxation measurements show that the antiferromagnetic transition typical of the undoped compound at TN = 77 K is slightly reduced and broadened in the Zn doped sample. Extended X-ray absorption fine structure measurements show a peak in the Ru–O(1) first shell Debye–Waller factor at a temperature TDW = TN, giving evidence for a strong magnetoelastic coupling detected up to x = 0.10. A local precursor order–disorder transition at T* > TN is also observed up to x = 0.10. For x > 0.10 these local structural features are hidden due to the increasing local lattice distortion induced by the Zn2+ dopant whereas the magnetic transition is still present.
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