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Record‐High Superconductivity in Niobium–Titanium Alloy
Author(s) -
Guo Jing,
Lin Gongchang,
Cai Shu,
Xi Chuanying,
Zhang Changjin,
Sun Wanshuo,
Wang Qiuliang,
Yang Ke,
Li Aiguo,
Wu Qi,
Zhang Yuheng,
Xiang Tao,
Cava Robert Joseph,
Sun Liling
Publication year - 2019
Publication title -
advanced materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 10.707
H-Index - 527
eISSN - 1521-4095
pISSN - 0935-9648
DOI - 10.1002/adma.201807240
Subject(s) - superconductivity , niobium , materials science , alloy , condensed matter physics , ambient pressure , titanium alloy , critical field , titanium , high pressure , superconducting transition temperature , metallurgy , engineering physics , thermodynamics , physics
Abstract The extraordinary superconductivity has been observed in a pressurized commercial niobium–titanium alloy. Its zero‐resistance superconductivity persists from ambient pressure to the pressure as high as 261.7 GPa, a record‐high pressure up to which a known superconducting state can continuously survive. Remarkably, at such an ultra‐high pressure, although the ambient pressure volume is shrunk by 45% without structural phase transition, the superconducting transition temperature ( T C ) increases to ≈19.1 K from ≈9.6 K, and the critical magnetic field ( H C2 ) at 1.8 K has been enhanced to 19 T from 15.4 T. These results set new records for both the T C and the H C2 among all the known alloy superconductors composed of only transition metal elements. The remarkable high‐pressure superconducting properties observed in the niobium–titanium alloy not only expand the knowledge on this important commercial superconductor but also are helpful for a better understanding on the superconducting mechanism.