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Superconductivity in S-rich phases of lanthanum sulfide under high pressure

Kun Gao, Wenwen Cui, Qinfang Wang, Jian Hao, Jingming Shi, Silvana Botti, Miguel A. L. Marques, Yinwei Li

2022Physical Review Materials19 citationsDOI

Abstract

Pressure, a fundamental thermodynamic variable, enables phase transitions to exotic phases with unique physical properties, such as superconductivity. In this work we perform a complete study of crystal structures and relevant electronic properties of La--S crystalline systems in a pressure range of 0--200 GPa. A structural search based on first-principles swarm-intelligence identifies two hitherto unknown pressure-stabilized stoichiometries, namely, ${\mathrm{LaS}}_{3}$ and ${\mathrm{LaS}}_{5}$, in addition to the previously reported compounds. We find that the S-S bonding patterns in La--S compounds evolve in the following sequence with increasing S content and pressure: Atomic S, ${\mathrm{S}}_{2}$ dimers, one-dimensional linear S chains, and two-dimensional S ladders. Further electron-phonon calculations show that both ${\mathrm{LaS}}_{3}$ and ${\mathrm{LaS}}_{5}$ are superconductors with critical temperatures of 13.6 K at 100 GPa and 11 K at 120 GPa, respectively. The softened acoustic phonon branches are responsible for their superconductivity. Our current work is expected to guide future experimental studies investigating superconductivity and structural features of La--S system and more, in general, of other rare-earth chalcogenides.

Topics & Concepts

SuperconductivityLanthanumCondensed matter physicsMaterials sciencePhononStoichiometryCrystallographyPhase (matter)ThermodynamicsPhysicsPhysical chemistryChemistryInorganic chemistryQuantum mechanicsIron-based superconductors researchHigh-pressure geophysics and materialsCrystal Structures and Properties
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