Recent Developments in High Temperature Superconductivity
New material systems and the experimental progress of high temperature superconductivity are briefly reviewed. We examine both oxides and non-oxides which exhibit stable and/or unstable superconductivity at high ...
Hor, P. H.
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Progress in high-temperature conventional superconductivity
Room-temperature superconductivity is becoming realistic given progress in conventional superconductivity: the critical temperature Tc =203 K has been discovered in H3S under high pressures ~150 GPa[1].
Eremets, M.
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Developments in high temperature superconductivity
The past four years (1997–2001) have seen many exciting developments in high temperature superconductivity, most notably the discovery of the superconducting nature of magnesium boride in 2001 and the amazing critical temperatures of 52 K, then 117 K ...
M J Qin (20192292) +4 more
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High-Temperature Superconductivity of Thermodynamically Stable Fluorite-Type Hydrides at Ambient Pressure. [PDF]
Huang H +8 more
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High-temperature superconductivity in strongly correlated electronic systems
In this chapter we give a selective review of our work on the role of electron correlation in the theory of high-temperature superconductivity (HTSC). The question of how electronic repulsions might give rise to off-diagonal long-range order (ODLRO) in ...
Hazel Cox (4460596) +2 more
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Mechanism of high-temperature superconductivity in compressed H<sub>2</sub>-molecular-type hydride. [PDF]
Liu P, Zhuang Q, Xu Q, Cui T, Liu Z.
europepmc +1 more source
High-temperature superconductivity using a model of hydrogen bonds. [PDF]
Kaplan D, Imry Y.
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High Temperature Interface Superconductivity
We use atomic-layer-by-layer molecular beam epitaxy (ALL-MBE) to deposit atomically smooth films of cuprate superconductors and other complex oxides.
Logvenov, G., Gozar, A., Božović, I.
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The Quest for High-Temperature Superconductivity in Nickelates under Ambient Pressure. [PDF]
Aggarwal L, Božović I.
europepmc +1 more source
High-temperature superconductivity as viewed from the maximum hardness principle. [PDF]
Grochala W, Derzsi M.
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