超导电性
凝聚态物理
钇
材料科学
库仑
临界场
非谐性
超导转变温度
声子
物理
核物理学
电子
冶金
氧化物
作者
I. A. Troyan,Dmitrii V. Semenok,Alexander G. Kvashnin,A. V. Sadakov,O. A. Sobolevskiy,V. M. Pudalov,А. Г. Иванова,Vitali B. Prakapenka,Eran Greenberg,Alexander Gavriliuk,I. S. Lyubutin,Viktor V. Struzhkin,Aitor Bergara,Ion Errea,Raffaello Bianco,Matteo Calandra,Francesco Mauri,Lorenzo Monacelli,Ryosuke Akashi,Artem R. Oganov
标识
DOI:10.1002/adma.202006832
摘要
Abstract Pressure‐stabilized hydrides are a new rapidly growing class of high‐temperature superconductors, which is believed to be described within the conventional phonon‐mediated mechanism of coupling. Here, the synthesis of one of the best‐known high‐ T C superconductors—yttrium hexahydride ‐YH 6 is reported, which displays a superconducting transition at ≈224 K at 166 GPa. The extrapolated upper critical magnetic field B c2 (0) of YH 6 is surprisingly high: 116–158 T, which is 2–2.5 times larger than the calculated value. A pronounced shift of T C in yttrium deuteride YD 6 with the isotope coefficient 0.4 supports the phonon‐assisted superconductivity. Current–voltage measurements show that the critical current I C and its density J C may exceed 1.75 A and 3500 A mm −2 at 4 K, respectively, which is higher than that of the commercial superconductors, such as NbTi and YBCO. The results of superconducting density functional theory (SCDFT) and anharmonic calculations, together with anomalously high critical magnetic field, suggest notable departures of the superconducting properties from the conventional Migdal–Eliashberg and Bardeen–Cooper–Schrieffer theories, and presence of an additional mechanism of superconductivity.
科研通智能强力驱动
Strongly Powered by AbleSci AI