1999
DOI: 10.1080/01411599908208008
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Elastic properties of SrTiO3 crystals at ultralow frequencies

Abstract: The phase transition of SrTiO3 at 105 K has been examined by studying the temperature dependence of the Young's modulus of SrTiO3 crystals along various directions. Dynamic Mechanical Analysis (DMA) at 10-140K and 10-45 Hz has been used for the experiments. The elastic behaviour is interpreted in terms of Landau theory and the DMA results are compared with ultrasonic experiments. The striking differences between the two types of data are attributed to the Occurrence of domain wall motions at low frequencies. T… Show more

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Cited by 31 publications
(54 citation statements)
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“…However, the pattern of evolution of the shear modulus through T1 did not match that predicted using a Landau M a n u s c r i p t 4 free energy expansion which had been calibrated using the large amount of experimental data available for SrTiO 3 (Carpenter, 2007a,b). Furthermore, it is known that twin walls are mobile down to at least ~40 K in SrTiO 3 at low frequencies of applied stress (Schranz et al, 1999;Kityk et al, 2000a, b;Lemanov et al, 2002), and that the elastic properties of twinned samples measured at MHz frequencies are different from those obtained from within a single tetragonal twin domain by Brillouin scattering (as summarised in Carpenter, 2007a , though the actual values depends on the mass of the sample, the mass of the backloads, sample size and elastic stiffness, and the response of the small cross-section where the corner of the sample meets the driving piezoelectric crystal.…”
Section: Introductionmentioning
confidence: 99%
“…However, the pattern of evolution of the shear modulus through T1 did not match that predicted using a Landau M a n u s c r i p t 4 free energy expansion which had been calibrated using the large amount of experimental data available for SrTiO 3 (Carpenter, 2007a,b). Furthermore, it is known that twin walls are mobile down to at least ~40 K in SrTiO 3 at low frequencies of applied stress (Schranz et al, 1999;Kityk et al, 2000a, b;Lemanov et al, 2002), and that the elastic properties of twinned samples measured at MHz frequencies are different from those obtained from within a single tetragonal twin domain by Brillouin scattering (as summarised in Carpenter, 2007a , though the actual values depends on the mass of the sample, the mass of the backloads, sample size and elastic stiffness, and the response of the small cross-section where the corner of the sample meets the driving piezoelectric crystal.…”
Section: Introductionmentioning
confidence: 99%
“…Some anelastic softening occurs in SrTiO 3 below the freezing temperature, however, as seen in published ultrasonic data obtained at MHz measuring frequencies (Figs. 6 and 7) and in Dynamical Mechanical Analysis (DMA) data collected at 1 350 Hz (Schranz et al, 1999;Kityk et al, 2000aKityk et al, , 2000b. Softening of the shear modulus of tetragonal CST beyond what is expected as a consequence of strain/order parameter coupling alone is also seen at room temperature in the pulse echo ultrasonic data shown in Figure 8c.…”
Section: Anelasticity and The Influence Of Transformation Twin Wallsmentioning
confidence: 78%
“…It was recognised from the early days of elastic constant measurements on SrTiO 3 that the displacement of transformation twin walls in response to an applied shear stress can give rise to additional softening and attenuation effects (Rehwald, 1971;Fossheim and Berre, 1972). These can be large in magnitude, giving rise to so called superelasticity (Schranz et al, 1999;Kityk et al, 2000aKityk et al, , 2000bBinder and Knorr, 2001;Lemanov et al, 2002;Harrison and Redfern, 2002;Harrison et al, 2003Harrison et al, , 2004aHarrison et al, , 2004bHarrison et al, , 2004c. Equivalent behaviour in silicate perovskites cannot be investigated directly because of the high confining pressure required to stabilise them, but a useful analogue system is the binary solid solution CaTiO 3 SrTiO 3 (CST).…”
Section: Figurementioning
confidence: 99%
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