Pseudoproper ferroelastic softening behaviour and dynamic microstructure of monoclinic PrAlO₃ perovskite

Carpenter, M. A.; Wiltshire, E. C.; Howard, C. J.; Thomson, R. I.; Turczynski, S.; Pawlak, D. A.; Lukasiewicz, T.

Title: Pseudoproper ferroelastic softening behaviour and dynamic microstructure of monoclinic PrAlO₃ perovskite
Creator: Carpenter, M. A.; Wiltshire, E. C.; Howard, C. J.; Thomson, R. I.; Turczynski, S.; Pawlak, D. A.; Lukasiewicz, T.
Relation: Phase Transitions Vol. 83, Issue 9, p. 703-713
Publisher Link: http://dx.doi.org/10.1080/01411594.2010.491953
Publisher: Taylor and Francis
Resource Type: journal article
Date: 2010
Description: Elastic and anelastic properties of single crystal PrAlO₃ have been investigated by resonant ultrasound spectroscopy at 0.2-1.2 MHz. Non-linear (pseudoproper) softening with falling temperature in the R3̅c stability field below ~690K is related to the elastic stability limit (C₁₁ - C₁₂)C₄₄ → 0. Before this instability point is reached, the first order R3̅c ↔ Imma transition intervenes and is marked by a steep minimum in shear elastic constants. Further pseudoproper ferroelastic softening then occurs, consistent with (C₁₁ - C₁₂) → 0 at ~151K for the second order Imma ↔ C2/m transition. Superattenuation of acoustic resonances within the stability field of the C2/m structure implies that the monoclinic twin walls are highly mobile, apart from in a narrow temperature interval near 100K where the structure becomes metrically tetragonal. PrAlO₃ appears to represent a general class of Jahn–Teller phase transitions in perovskites for which the predominant order parameter transforms according to Γ⁺₃ symmetry and which displays an unusual anelastic dissipation.
Subject: PrAlO₃; elastic softening; pseudoproper ferroelastic; Jahn-Teller; superattenuation
Identifier: http://hdl.handle.net/1959.13/928961
Identifier: uon:10496
Identifier: ISSN:0141-1594
Language: eng
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