Pressure induced second-order structural transition in Sr₃Ir₂O

Pressure induced second-order structural transition in Sr₃Ir₂O

We conducted in situ angle dispersive high pressure x-ray diffraction experiments on Sr3Ir2O7 up to 23.1 GPa at 25 K with neon as the pressure transmitting medium. Pressure induces a highly anisotropic compressional behavior seen where the tetragonal plane is compressed much faster than the perpendi...

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Veröffentlicht in:Journal of physics. Condensed matter 2014-05, Vol.26 (21), p.215402-215402
Hauptverfasser: Zhao, Z, Wang, S, Qi, T F, Zeng, Q, Hirai, S, Kong, P P, Li, L, Park, C, Yuan, S J, Jin, C Q, Cao, G, Mao, W L
Format: Artikel
Sprache:eng
Schlagworte:
catalysis (heterogeneous), solar (photovoltaic), phonons, thermoelectric, energy storage (including batteries and capacitors), hydrogen and fuel cells, superconductivity, charge transport, mesostructured materials, materials and chemistry by design, synthesis (novel materials)
Iridium - chemistry
Oxides - chemistry
Phase Transition
Pressure
Spectrum Analysis, Raman
Strontium - chemistry
Temperature
X-Ray Diffraction
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Zusammenfassung:We conducted in situ angle dispersive high pressure x-ray diffraction experiments on Sr3Ir2O7 up to 23.1 GPa at 25 K with neon as the pressure transmitting medium. Pressure induces a highly anisotropic compressional behavior seen where the tetragonal plane is compressed much faster than the perpendicular direction. By analyzing different aspects of the diffraction data, a second-order structural transition is observed at approximately 14 GPa, which is accompanied by the insulating state to nearly metallic state at 13.2 GPa observed previously (Li et al 2013 Phys. Rev. B 87 235127). Our results highlight the coupling between electronic state and lattice structure in Sr3Ir2O7 under pressure.
ISSN:1361-648X
1361-648X
DOI:10.1088/0953-8984/26/21/215402