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Paper detail

Spin-ordering and magnetoelastic coupling in the extended Kagome system YBaCo4O7

Low temperature magnetic and structural behavior of the extended Kagome system YBaCo4O7 has been studied by single crystal neutron diffraction and high-resolution powder X-ray diffraction. Long-range magnetic ordering associated with a structural transition from orthorhombic Pbn2_1 to monoclinic P2_1 symmetry has been found at T_1 ~ 100 K. The interplay between the structural and magnetic degrees of freedom testifies that the degeneracy of the magnetic ground state, present in the orthorhombic phase, is lifted through a strong magnetoelastic coupling, as observed in other frustrated systems. At T_2 ~ 60 K, an additional magnetic transition is observed, though iso-symmetric. Models for the magnetic structures below T_1 and T_2 are presented, based on refinements using a large number of independent reflections. The results obtained are compared with previous single crystal and powder diffraction studies on this and related compositions.

preprint2010arXivOpen access
D. D. KhalyavinP. ManuelB. OuladdiafA. HuqH. ZhengJ. F. MitchellL. C. Chapon
cond-mat.str-elcond-mat.mtrl-sci
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D. D. KhalyavinP. ManuelB. OuladdiafA. HuqH. ZhengJ. F. MitchellL. C. Chapon

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