钇氢化物中的反常高温超导性。

Anomalous High-Temperature Superconductivity in YH.

作者信息

Troyan Ivan A, Semenok Dmitrii V, Kvashnin Alexander G, Sadakov Andrey V, Sobolevskiy Oleg A, Pudalov Vladimir M, Ivanova Anna G, Prakapenka Vitali B, Greenberg Eran, Gavriliuk Alexander G, Lyubutin Igor S, Struzhkin Viktor V, Bergara Aitor, Errea Ion, Bianco Raffaello, Calandra Matteo, Mauri Francesco, Monacelli Lorenzo, Akashi Ryosuke, Oganov Artem R

机构信息

Shubnikov Institute of Crystallography, Federal Scientific Research Center Crystallography and Photonics, Russian Academy of Sciences, 59 Leninskii Prospect, Moscow, 119333, Russia.

Skolkovo Institute of Science and Technology, Skolkovo Innovation Center, 3 Nobel Street, Moscow, 121025, Russia.

出版信息

Adv Mater. 2021 Apr;33(15):e2006832. doi: 10.1002/adma.202006832. Epub 2021 Mar 10.

DOI:10.1002/adma.202006832

PMID:33751670

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 superconductors-yttrium hexahydride -YH is reported, which displays a superconducting transition at ≈224 K at 166 GPa. The extrapolated upper critical magnetic field B (0) of YH is surprisingly high: 116-158 T, which is 2-2.5 times larger than the calculated value. A pronounced shift of T in yttrium deuteride YD with the isotope coefficient 0.4 supports the phonon-assisted superconductivity. Current-voltage measurements show that the critical current I and its density J may exceed 1.75 A and 3500 A mm 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.

摘要

压力稳定氢化物是一类新型的快速发展的高温超导体，据信可以用传统的声子介导耦合机制来描述。在此，报道了最著名的高温超导体之一——氢化钇（YH₆）的合成，它在166吉帕压力下于约224开尔文显示超导转变。氢化钇（YH₆）的外推上临界磁场B₀出奇地高：116 - 158特斯拉，比计算值大2至2.5倍。氘化钇（YD）中T的明显位移以及同位素系数0.4支持了声子辅助超导。电流 - 电压测量表明，在4开尔文时，临界电流I及其密度J可能分别超过1.75安和3500安/平方毫米，高于诸如铌钛（NbTi）和钇钡铜氧（YBCO）等商业超导体。超导密度泛函理论（SCDFT）和非谐计算结果，连同异常高的临界磁场，表明超导性质明显偏离传统的米氏 - 埃利亚什贝格（Migdal - Eliashberg）和巴丁 - 库珀 - 施里弗（Bardeen - Cooper - Schrieffer）理论，并且存在额外的超导机制。

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钇氢化物中的反常高温超导性。

Anomalous High-Temperature Superconductivity in YH.

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