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Manipulating fractional Shapiro steps in twisted cuprate Josephson junctions. [PDF]
Natl Sci RevZhu Y, Wang H, Zhang D, Xue QK.
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High Temperature Superconductivity
Nature Reviews Physics, 2021Despite decades of intense theoretical, experimental and computational effort, a microscopic theory of high-temperature superconductivity is not yet established. Eight researchers share their contributions to the search for a better understanding of unconventional superconductivity and their hopes for the future of the field.
D P Tunstall, W Barford, P Osborne
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High-Temperature Superconductivity
Physics Today, 1991One can argue that superconductivity in “the oxides” was discovered in 1964, 1986 or 1987, depending on which oxide is chosen: the first to show superconductivity at any temperature, the first with a Tc greater than 20 K or the first with a Tc greater than 77 K.
Mary E DeWeese, Mary E DeWeese
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High-temperature superconducting resonators
IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 1992Preliminary measurements on high-T(c) superconducting resonators are reported and why they are attractive candidates for incorporation in low-noise oscillators is discussed. Some of the important contributions to oscillator noise are reviewed and how they depend on the resonator parameters is shown. A preliminary YBaCu (3)O(7)/LaAlO(3) resonator with a
R C, Taber +5 more
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High Temperature Superconducting Oxide Films
IEEE Transactions on Components, Hybrids, and Manufacturing Technology, 1988The authors used sputter deposition with single oxide targets and metal molecular beam epitaxy to prepare thin films of the high-T/sub c/ oxide Y-Ba-Cu-O superconductor. The processing parameters, the structural characteristics, and the transport properties of the films are reported. The authors also discuss the microstructures of superconducting Y/sub
M. Hong, J. Kwo, C.H. Chen
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High temperature superconductivity
Journal of Polymer Science Part C: Polymer Symposia, 1970AbstractThe critical temperature, Tc, for all presently known superconductors does not exceed 21'K. This fact obviously limits the range of applications of superconductivity in technology in a very fundamental way. On the whole, the reason why the value of Tc for “ordinary” superconductors would not exceed 20‐40oK is fairly well understood. At the same
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High-Temperature Superconductivity
IEE Colloquium on `Practical Applications of High Temperature Superconductors', 1995The author reviews the development of high Tc superconductors. The preparation techniques of the ceramic materials and the applications of materials for power devices are discussed. (3 pages)
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High Temperature Superconductivity
Inference: International Review of Science, 2019Superconductivity in liquid helium, a very cold substance, was discovered in 1908. Ever since, researchers have aimed to fabricate materials that exhibit superconductivity at room temperature, which would offer a host of practical applications, from lossless power transmission to magnetically levitated trains. Andrew Jordan examines recent experimental
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High-Temperature Superconductivity
Japanese Journal of Applied Physics, 2006A general review on high-temperature superconductivity was made. After prehistoric view and the process of discovery were stated, the special features of high-temperature superconductors were explained from the materials side and the physical properties side.
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High-temperature superconductivity
Physics World, 1996Cohn Humphreys criticizes the UK superconductivity community for its apparent lack of positive response to the recommendation by the materials panel in the UK's Technology Foresight exercise that additional funding should be directed towards the processing of superconductors for applications (August p15).
Ian McDougall +2 more
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