Symmetry rules and strain/order-parameter relationships for coupling between octahedral tilting and cooperative Jahn-Teller transitions in ABX₃ perovskites: II. application

Carpenter, Michael A.; Howard, Christopher J.

Title: Symmetry rules and strain/order-parameter relationships for coupling between octahedral tilting and cooperative Jahn-Teller transitions in ABX₃ perovskites: II. application
Creator: Carpenter, Michael A.; Howard, Christopher J.
Relation: Acta Crystallographica Section B: Structural Science Vol. 65, Issue 2, p. 147-159
Publisher Link: http://dx.doi.org/10.1107/s0108768109000962
Publisher: Wiley-Blackwell Munksgaard
Resource Type: journal article
Date: 2009
Description: The structural evolution of selected perovskites containing Jahn-Teller cations has been investigated in the light of a formal analysis of symmetry hierarchies for phase transitions driven by octahedral tilting and Jahn-Teller cooperative distortions. General expressions derived from the strain/order-parameter coupling relationships allowed by symmetry are combined with observed changes in lattice parameters to reveal details of order-parameter evolution and coupling. LuVO₃, YbVO₃, YVO₃ and CeVO₃ are representative of systems which develop Jahn-Teller ordering schemes associated with irreducible representations M₂⁺ and R₃⁺ of the space group Pm3̅m. Tilting of their octahedra is associated with M₃⁺ and R₄⁺. The Pnma (M₃⁺ + R₄⁺ tilting) ↔ P2₁/a (M₃⁺ + R₄⁺ tilting, R₃⁺ Jahn-Teller order) transition below room temperature is close to second order in character. Shear strains which depend primarily on tilt angles show little variation, implying that there is only weak coupling between the tilting and Jahn-Teller order parameters. The subsequent P2₁/a Pnma (M₃⁺ + R₄⁺ tilting, M₂⁺ Jahn-Teller order) is first order in character, and involves either a reduction in the R₄⁺ tilt angle or a change in the strength of tilt/Jahn-Teller order-parameter coupling. In LaMnO₃, the isosymmetric Pnma (M₃⁺ + R₄⁺ tilting) ↔ Pnma (M₃⁺ + R₄⁺ tilting, M₂⁺ Jahn-Teller order) transition can be described in terms of a classical first-order transition conforming to a 246 Landau expansion with negative fourth-order coefficients. Strain evolution in Ba-doped samples suggests that the transition becomes second order in character and reveals a new strain relaxation mechanism in LaMnO₃ which might be understood in terms of local strain heterogeneities due to the disordering of distorted MnO₆ octahedra. Transitions in PrAlO₃ and La₀․₅Ba₀․₅CoO₃ illustrate the transformation behaviour of systems in which the Jahn-Teller ordering scheme is associated with the irreducible representation ᴦ₃⁺. Overall, coupled tilting + Jahn-Teller phase transitions in perovskites conform to mean-field behaviour, consistent with the underlying role of strain in promoting long interaction lengths.
Subject: symmetry; strain/order-parameter relationship; coupling; perovskites; Jahn-Teller cations; phase transitions
Identifier: http://hdl.handle.net/1959.13/916988
Identifier: uon:8174
Identifier: ISSN:0108-7681
Language: eng
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