M. C. Gallardo scite author profile

The transition between the cubic and tetragonal phase in SrTiO 3 shows an excess specific heat of 0.0035 J g −1 K −1 . Comparison between the temperature evolution of the excess entropy S = (C/T ) dT and the structural order parameter Q shows S ∝ Q 2 within experimental errors (γ = 1.004±0.006). The apparent order parameter exponent β = 0.35±0.02 was confirmed and analysed using a Landau-type expression for the excess Gibbs free energy

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Avalanche criticality in the martensitic transition ofCu67.64Zn16.71Al15.65shape-memory alloy: A

Gallardo

et al. 2010

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by jerky propagation of phase fronts related to the appearance of avalanches. In this paper we describe a full analysis of this avalanche behavior using calorimetric heat flux measurements and acoustic emission measurements. Two different propagation modes, namely smooth front propagation and jerky avalanches, were observed in extremely slow measurements with heating and cooling rates as low as a few 10 Avalanches appear to be more common for heating rates faster than 5 10 -3 K/h whereas smooth front propagation occurs in all calorimetric measurements and (almost) exclusively for slower heating rates. Repeated cooling runs were taken after a waiting time of 1 month (and an intermediate heating run). Correlations between the avalanche sequences of the two cooling runs were found for the strongest avalanche peaks but not for the full sequence of avalanches. The memory effect is hence limited to strong avalanches.3

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Cubic-tetragonal phase transition in KMnF₃: excess entropy and spontaneous strain

Hayward

Romero

Gallardo

et al. 2000

J. Phys.: Condens. Matter

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The transition between cubic and tetragonal phases in KMnF3 has been studied by x-ray diffraction rocking curves and calorimetry. Comparison of the excess entropy with the order parameter Q obtained from spontaneous strain shows that the mean field relationship S Q 2 is obeyed to within experimental error. The data are fitted to a Landau free energy expression G = ½A (T -TC )Q 2 +(1/4) BQ 4 +(1/6)CQ 6 , with A = 2.781 J K-1 mol-1 , B = -57.63 J mol-1 , C = 574.2 J mol-1 , TC = 185.76 K. No significant excess specific heat is found at T >>TC .

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Latent heat measurement near a tricritical point: a study of the KMnF3 ferroelastic crystal

et al. 2000

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Avalanche correlations in the martensitic transition of a Cu–Zn–Al shape memory alloy: analysis of acoustic emission and calorimetry

Ardanuy

Martín‐Olalla

Romero

et al. 2014

J. Phys.: Condens. Matter

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The existence of temporal correlations during the intermittent dynamics of a thermally driven structural phase transition is studied in a Cu-Zn-Al alloy. The sequence of avalanches is observed by means of two techniques: acoustic emission and high sensitivity calorimetry. Both methods reveal the existence of event clustering in a way that is equivalent to the Omori correlations between aftershocks in earthquakes as are commonly used in seismology.

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M. C. Gallardo

The cubic-tetragonal phase transition in strontium titanate: excess specific heat measurements and evidence for a near-tricritical, mean field type transition mechanism

Avalanche criticality in the martensitic transition ofCu67.64Zn16.71Al15.65shape-memory alloy: A

Cubic-tetragonal phase transition in KMnF₃: excess entropy and spontaneous strain

Latent heat measurement near a tricritical point: a study of the KMnF3 ferroelastic crystal

Avalanche correlations in the martensitic transition of a Cu–Zn–Al shape memory alloy: analysis of acoustic emission and calorimetry

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M. C. Gallardo

The cubic-tetragonal phase transition in strontium titanate: excess specific heat measurements and evidence for a near-tricritical, mean field type transition mechanism

Avalanche criticality in the martensitic transition ofCu67.64Zn16.71Al15.65shape-memory alloy: A

Cubic-tetragonal phase transition in KMnF3: excess entropy and spontaneous strain

Latent heat measurement near a tricritical point: a study of the KMnF3 ferroelastic crystal

Avalanche correlations in the martensitic transition of a Cu–Zn–Al shape memory alloy: analysis of acoustic emission and calorimetry

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Cubic-tetragonal phase transition in KMnF₃: excess entropy and spontaneous strain