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Record high T c element superconductivity achieved in titanium.

Changling ZhangXin HeChang LiuZhiwen LiKe LuSijia ZhangShaomin FengXiancheng WangYi PengYouwen LongRicheng YuLuhong WangVitali PrakapenkaStella CharitonQuan LiHaozhe LiuChangfeng ChenChangqing Jin
Published in: Nature communications (2022)
It is challenging to search for high T c superconductivity (SC) in transition metal elements wherein d electrons are usually not favored by conventional BCS theory. Here we report experimental discovery of surprising SC up to 310 GPa with T c above 20 K in wide pressure range from 108 GPa to 240 GPa in titanium. The maximum T c onset above 26.2 K and zero resistance T c zero of 21 K are record high values hitherto achieved among element superconductors. The H c2 (0) is estimated to be ∼32 Tesla with coherence length 32 Å. The results show strong s-d transfer and d band dominance, indicating correlation driven contributions to high T c SC in dense titanium. This finding is in sharp contrast to the theoretical predications based on pristine electron-phonon coupling scenario. The study opens a fresh promising avenue for rational design and discovery of high T c superconductors among simple materials via pressure tuned unconventional mechanism.
Keyphrases
  • small molecule
  • magnetic resonance
  • computed tomography
  • magnetic resonance imaging
  • high throughput