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The effect of orbital-lattice coupling on the electrical resistivity of YBaCuFeO5 investigated by X-ray absorption.


ABSTRACT: Temperature-dependent X-ray absorption near-edge structures, X-ray linear dichroism (XLD) and extended X-ray absorption fine structure (EXAFS) spectroscopic techniques were used to investigate the valence state, preferred orbital and local atomic structure that significantly affect the electrical and magnetic properties of a single crystal of YBaCuFeO5 (YBCFO). An onset of increase of resistivity at ~180?K, followed by a rapid increase at/below 125?K, is observed. An antiferromagnetic (AFM)-like transition is close to the temperature at which the resistivity starts to increase in the ab-plane and is also observed with strong anisotropy between the ab-plane and the c-axis. The XLD spectra at the Fe L3,2-edge revealed a change in Fe 3d eg holes from the preferential [Formula: see text] orbital at high temperature (300-150?K) to the [Formula: see text] orbital at/below 125?K. The analysis of the Fe K-edge EXAFS data of YBCFO further revealed an unusual increase in the Debye-Waller factor of the nearest-neighbor Fe-O bond length at/below 125?K, suggesting phonon-softening behavior, resulting in the breaking of lattice symmetry, particularly in the ab-plane of Fe-related square pyramids. These findings demonstrate a close correlation between electrical resistivity and coupling of the preferred Fe 3d orbital with lattice distortion of a single crystal of YBCFO.

SUBMITTER: Srivastava MK 

PROVIDER: S-EPMC6901513 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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The effect of orbital-lattice coupling on the electrical resistivity of YBaCuFeO<sub>5</sub> investigated by X-ray absorption.

Srivastava M K MK   Qiu X-S XS   Chin Y Y YY   Hsieh S H SH   Shao Y C YC   Liang Y-H YH   Lai C-H CH   Du C H CH   Wang H T HT   Chiou J W JW   Lai Y C YC   Tsai H M HM   Pao C W CW   Lin H J HJ   Lee J F JF   Asokan K K   Pong W F WF  

Scientific reports 20191209 1


Temperature-dependent X-ray absorption near-edge structures, X-ray linear dichroism (XLD) and extended X-ray absorption fine structure (EXAFS) spectroscopic techniques were used to investigate the valence state, preferred orbital and local atomic structure that significantly affect the electrical and magnetic properties of a single crystal of YBaCuFeO<sub>5</sub> (YBCFO). An onset of increase of resistivity at ~180 K, followed by a rapid increase at/below 125 K, is observed. An antiferromagnetic  ...[more]

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