Fundamental Research (May 2024)

Ternary superconducting hydrides stabilized via Th and Ce elements at mild pressures

  • Qiwen Jiang,
  • Zihan Zhang,
  • Hao Song,
  • Yanbin Ma,
  • Yuanhui Sun,
  • Maosheng Miao,
  • Tian Cui,
  • Defang Duan

Journal volume & issue
Vol. 4, no. 3
pp. 550 – 556

Abstract

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The discovery of covalent H3S and clathrate structure LaH10 with excellent superconducting critical temperatures at high pressures has facilitated a multitude of research on compressed hydrides. However, their superconducting pressures are too high (generally above 150 GPa), thereby hindering their application. In addition, making room-temperature superconductivity close to ambient pressure in hydrogen-based superconductors is challenging. In this work, we calculated the chemically “pre-compressed” Be-H by heavy metals Th and Ce to stabilize the superconducting phase near ambient pressure. An unprecedented ThBeH8 (CeBeH8) with a “fluorite-type” structure was predicted to be thermodynamically stable above 69 GPa (76 GPa), yielding a Tc of 113 K (28 K) decompressed to 7 GPa (13 GPa) by solving the anisotropic Migdal–Eliashberg equations. Be-H vibrations play a vital role in electron–phonon coupling and structural stability of these ternary hydrides. Our results will guide further experiments toward synthesizing ternary hydride superconductors at mild pressures.

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