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Synthesis and superconductivity in yttrium-cerium hydrides at high pressures

Liu-Cheng Chen, T. Luo, Zi-Yu Cao, Philip Dalladay‐Simpson, Ge Huang, Di Peng, Lili Zhang, Federico A. Gorelli, Guo‐Hua Zhong, Hai‐Qing Lin, Xiao‐Jia Chen

2024Nature Communications54 citationsDOIOpen Access PDF

Abstract

Abstract Further increasing the critical temperature and/or decreasing the stabilized pressure are the general hopes for the hydride superconductors. Inspired by the low stabilized pressure associated with Ce 4 f electrons in superconducting cerium superhydride and the high critical temperature in yttrium superhydride, we carry out seven independent runs to synthesize yttrium-cerium alloy hydrides. The synthetic process is examined by the Raman scattering and X-ray diffraction measurements. The superconductivity is obtained from the observed zero-resistance state with the detected onset critical temperatures in the range of 97-141 K. The upper critical field towards 0 K at pressure of 124 GPa is determined to be between 56 and 78 T by extrapolation of the results of the electrical transport measurements at applied magnetic fields. The analysis of the structural data and theoretical calculations suggest that the phase of Y 0.5 Ce 0.5 H 9 in hexagonal structure with the space group of P 6 3 / m m c is stable in the studied pressure range. These results indicate that alloying superhydrides indeed can maintain relatively high critical temperature at relatively modest pressures accessible by laboratory conditions.

Topics & Concepts

YttriumCeriumSuperconductivityCritical fieldMaterials scienceAlloyExtrapolationPhase (matter)Condensed matter physicsChemistryMetallurgyPhysicsMathematical analysisOxideOrganic chemistryMathematicsRare-earth and actinide compoundsHigh-pressure geophysics and materialsNuclear Materials and Properties