Phase transitions
Phase transitions in frustrated cobaltite TmBaCo$_4$O$_7$
Z. A. Kazei,
V. V. Snegirev,
M. S. Stolyarenko Lomonosov Moscow State University, Moscow, Russia
Abstract:
For the first time, changes in lattice parameters (metrics) during a structural transition in stoichiometric cobaltite TmBaCo
$_4$O
$_{7+x}$ with
$x\approx$ 0 (iodometric titration method) obtained by quenching from 900–950
$^\circ$C were investigated by direct X-ray method. It was found that during the structural transition
$T_S\approx$ 220–240 K, the
$\Delta a/a$ parameter does not detect any features, parameters
$b$ and
$c$ experience jumps of different sign and different magnitude
$\Delta b/b\approx$ 3.5
$\cdot$ 10
$^{-3}$ and
$\Delta c/c\approx$ -4.0
$\cdot$ 10
$^{-3}$, which leads to a jump in the volume of
$\Delta V/V\approx$ -0.5
$\cdot$ 10
$^{-3}$. The distortion value
$\varepsilon_o\approx$ -3.5
$\cdot$ 10
$^{-3}$ remains constant with increasing temperature and disappears abruptly during the transition. The distortion of the structure is accompanied by anomalous behavior of the Young's modulus
$\Delta E(T)/E_0$ in the
$T_S$ region. In the region of the expected magnetic phase transition of the cobalt subsystem, anomalies in the Young's modulus curve
$\Delta E(T)/E_0$ were not detected, and a strong absorption peak at
$T\approx$ 96 K in the internal friction dependence
$q^{-1}(T)$ is, apparently, a sign of a developed short-range order.
Keywords:
frustrated systems, cobaltites, structural phase transitions, lattice parameters, isotropic deformation, anisotropic deformation, Young's modulus, internal friction. Received: 03.07.2023
Revised: 03.08.2023
Accepted: 04.08.2023
DOI:
10.21883/FTT.2023.09.56257.138
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