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Spin-phonon coupling suppressing the structural transition in perovskite-like oxide

Shalini Badola, Supratik Mukherjee, Greeshma Sunil, Bishnupada Ghosh, Devesh Negi, G. Vaitheeswaran, A. C. Garcia‐Castro, Surajit Saha

2024Physical review. B./Physical review. B11 citationsDOI

Abstract

Multifunctional properties in quantum systems require an interaction between different degrees of freedom. As such, spin-phonon coupling emerges as an ideal mechanism to tune multiferroicity, magnetism, and the magnetoelectric response. In this Letter, we demonstrate and explain, based on theoretical and experimental analyses, an unusual manifestation of spin-phonon coupling, i.e., prevention of a ferroelastic structural transition, and locking of the high-temperature $R\overline{3}m$ phase in a magnetically frustrated perovskitelike oxide ${\mathrm{Ba}}_{2}{\mathrm{NiTeO}}_{6}$. We present ${\mathrm{Ba}}_{2}{\mathrm{NiTeO}}_{6}$ as a prototype example among its family where a long-range antiferromagnetic structure couples with a low-frequency ${E}_{g}$ mode (at $\ensuremath{\sim}55\phantom{\rule{0.28em}{0ex}}{\mathrm{cm}}^{\ensuremath{-}1}$) that exhibits a large anharmonicity. Our findings establish that spin-phonon coupling clearly suppresses the phonon anharmonicity, preventing the structural phase transition from the $R\overline{3}m$ to the $C2/m$ phase in ${\mathrm{Ba}}_{2}{\mathrm{NiTeO}}_{6}$.

Topics & Concepts

PhononCondensed matter physicsAnharmonicityAntiferromagnetismCoupling (piping)MagnetismPhysicsSpin (aerodynamics)Phase transitionPerovskite (structure)Materials scienceCrystallographyChemistryThermodynamicsMetallurgyMultiferroics and related materialsAdvanced Condensed Matter PhysicsMagnetic and transport properties of perovskites and related materials
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