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JOURNAL ARTICLE

Tuning the giant magnetoelastic transition in Ba3BiIr2O9 and Ba3BiRu2O9

Zixin HuangMaxim AvdeevBrendan J. KennedyKevin S. KnightQingdi ZhouChris D. Ling

Year: 2014 Journal:   Journal of Physics Condensed Matter Vol: 26 (27)Pages: 276003-276003   Publisher: IOP Publishing
DOI: 10.1088/0953-8984/26/27/276003
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Abstract

We have experimentally investigated the effects of pressure on the magnetoelastic transitions associated with the opening of spin-gaps in Ba3BiIr2O9 and Ba3BiRu2O9. For both compounds, reducing the unit cell volume by either external physical and internal chemical pressure was found to reduce the temperature T(*) of the transition and, to a lesser extent, the magnitude of the associated negative thermal volume expansion. The results yield the latent heat associated with the transitions, -3.34(3) × 10(2) J mol(-1) for Ba3BiIr2O9 and -7.1(5) × 10(2) J mol(-1) for Ba3BiRu2O9. The transition in Ba3BiRu2O9 is significantly more robust than in Ba3BiIr2O9, requiring an order of magnitude higher pressures to achieve the same reduction in T(*). The differing responses of the two compounds points to differences between the 4d and 5d metals and hence to the importance of spin-orbit coupling, which is expected to be much stronger in the Ir compound.

Keywords:
Materials science Analytical Chemistry (journal) Mineralogy Crystallography Chemistry

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0.63
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Citation History

Topics

Advanced Condensed Matter Physics
Physical Sciences →  Physics and Astronomy →  Condensed Matter Physics
Multiferroics and related materials
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials
Magnetic and transport properties of perovskites and related materials
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials

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