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Glassy atomic vibrations and blurry electronic structures created by local structural disorders in high-entropy metal telluride superconductors

Yoshikazu Mizuguchi, Hidetomo Usui, Rei Kurita, Kyohei Takae, Md. Riad Kasem, Ryo Matsumoto, Kazuki Yamane, Yoshihiko Takano, Yuki Nakahira, Aichi Yamashita, Yosuke Goto, Akira Miura, Chikako Moriyoshi

2023Materials Today Physics20 citationsDOIOpen Access PDF

Abstract

Recently, robustness of superconductivity to external pressure has been observed in high-entropy (HE) metal telluride (MTe). Here, we investigated the atomic displacement parameters (Uiso), atomic vibration characteristics, and electronic structure of MTe with various configurational entropies of mixing (ΔSmix) at the M site to understand the origin of the robustness of the superconductivity. Uiso clearly increased by M-site alloying with ΔSmix ≥ 1.1R, which is evidence of the created local disorder in the NaCl-type (low-pressure) phases. The simulated vibrational density of states (DOS) shows remarkable broadening with ΔSmix ≥ 1.1R, which indicates the glassy characteristics of atomic vibrations in the NaCl-type phases. In the calculated electronic structure for the CsCl-type (high-pressure) phases, a blurry electronic band structure appears with increasing ΔSmix, which indicates the evolution of blurry electronic states in HE MTe with the CsCl-type structure. The estimated electronic DOS at the Fermi energy cannot explain the changes in Tc for HE MTe when assuming conventional electron-phonon superconductivity, but the conventional explanation seems to work for PbTe. Therefore, the pairing mechanisms in HE MTe are affected by the glassy phonon and/or blurry electronic states, and the robustness of superconductivity possibly originates from the unique electron-phonon coupling.

Topics & Concepts

SuperconductivityElectronic structureMaterials sciencePhononPairingCondensed matter physicsTellurideElectronMolecular vibrationPhysicsRaman spectroscopyQuantum mechanicsMetallurgyHigh Entropy Alloys StudiesHigh-pressure geophysics and materialsAdvanced Thermoelectric Materials and Devices
Glassy atomic vibrations and blurry electronic structures created by local structural disorders in high-entropy metal telluride superconductors | Litcius