High-temperature superconductors Universal nodal Fermi velocity

High-temperature superconductors Universal nodal Fermi velocity

The mechanism that causes high-temperature superconductivity in copper oxide materials (cuprates) is still unknown, more than 15 years after it was discovered. As the charge carriers (electrons or holes) are introduced into the parent antiferromagnetic insulator, a process called doping, the materia...

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Veröffentlicht in:Nature 2003-05, Vol.423 (6938), p.398-398
Hauptverfasser: Zhou, X. J, Yoshida, T, Lanzara, A, Bogdanov, P. V, Kellar, S. A, Shen, K. M, Yang, W. L, Ronning, F, Sasagawa, T, Kakeshita, T, Noda, T, Eisaki, H, Uchida, S, Lin, C. T, Zhou, F, Xiong, J. W, Ti, W. X, Zhao, Z. X, Fujimori, A, Hussain, Z, Shen, Z.-X
Format: Artikel
Sprache:eng
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PARTICLE ACCELERATORS
STANFORD LINEAR ACCELERATOR CENTER
STANFORD SYNCHROTRON RADIATION LABORATORY
SUPERCONDUCTORS
SYNCHROTRON RADIATION
VELOCITY
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Zusammenfassung:The mechanism that causes high-temperature superconductivity in copper oxide materials (cuprates) is still unknown, more than 15 years after it was discovered. As the charge carriers (electrons or holes) are introduced into the parent antiferromagnetic insulator, a process called doping, the material evolves from an insulator to a superconductor, and eventually to a normal metal. This marked change of physical properties with doping indicates that doping dependence (non-universality) might be a general feature of these materials, but we find that, on the contrary, the low-energy Fermi velocity of electrons is in fact universal, even among different superconductor families.
ISSN:0028-0836
1476-4687
DOI:10.1038/423398a