Results 1 to 10 of about 92,608 (151)

High Temperature Superconductivity [PDF]

Journal of Magnetism and Magnetic Materials, 1998
The current status of basic research on the high temperature cuprate superconductors and prospects for technological applications of these materials is discussed.
Alloul, Anderson, Anderson, Ando, Anlage, Aubin, Basov, Batlogg, Batlogg, Bednorz, Boebinger, Bonn, Brauner, Bucher, Cava, Cava, Cava, Cava, Chaudhari, Chaudhari, Chien, Cho, Chu, Coffey, Cooper, Cox, Crabtree, Dalichaouch, Deveraux, Ding, Emery, Erb, Franck, Fukuyama, Gavaler, Hardy, Hawsey, Hebard, Holczer, Homes, Hwang, Imai, Ito, Iye, Jiang, Jin, Johnston, Jorgensen, Kirtley, Kleiner, Kondo, Kouznetsov, Laughlin, Lesueur, Levi, Levi, Levi, Levi, Levin, Loeser, Loram, M.B. Maple, Maekawa, Maeno, Mandrus, Maple, Maple, Maple, Maple, Markert, Martindale, Mathai, Mattheis, Miller, Moler, Nagaosa, Nagarajan, Neumeier, Neumeier, Nun˜ez-Regueiro, Orlando, Pines, Puchkov, Putilin, Randeria, Rice, Rossat-Mignod, Rosseinsky, Rowell, Sarrao, Scalapino, Schilling, Shen, Sleight, Srikanth, Stadlober, Sun, Sun, Sun, Suzumura, Takano, Takigawa, Tallon, Tokura, Tsuei, Tsuei, Uchida, Uehara, Uemura, Varma, Warren, Wollman, Wollman, Wu, Zhang   +114 more
core   +4 more sources

High temperature superconductivity at FeSe/LaFeO3 interface [PDF]

Nature Communications, 2021
An enhanced superconducting pairing temperature (T g) has only been observed in single-layer FeSe interfaced with TiO x system. Here, the authors construct a new interface composed of single-layer FeSe interfaced with LaFeO3 showing a highest T g of 80 K
Yuanhe Song, Zheng Chen, Qinghua Zhang, Haichao Xu, Xia Lou, Xiaoyang Chen, Xiaofeng Xu, Xuetao Zhu, Ran Tao, Tianlun Yu, Hao Ru, Yihua Wang, Tong Zhang, Jiandong Guo, Lin Gu, Yanwu Xie, Rui Peng, Donglai Feng   +17 more
doaj   +2 more sources

Photomolecular High-Temperature Superconductivity [PDF]

Physical Review X, 2020
The properties of organic conductors are often tuned by the application of chemical or external pressure, which change orbital overlaps and electronic bandwidths while leaving the molecular building blocks virtually unperturbed.
M. Buzzi, D. Nicoletti, M. Fechner, N. Tancogne-Dejean, M. A. Sentef, A. Georges, T. Biesner, E. Uykur, M. Dressel, A. Henderson, T. Siegrist, J. A. Schlueter, K. Miyagawa, K. Kanoda, M.-S. Nam, A. Ardavan, J. Coulthard, J. Tindall, F. Schlawin, D. Jaksch, A. Cavalleri   +20 more
doaj   +4 more sources

Bipolaronic High-Temperature Superconductivity

Physical Review X, 2023
Electron-lattice interactions play a prominent role in quantum materials, making a deeper understanding of direct routes to phonon-mediated high-transition-temperature (T_{c}) superconductivity desirable.
C. Zhang, J. Sous, D. R. Reichman, M. Berciu, A. J. Millis, N. V. Prokof’ev, B. V. Svistunov   +6 more
doaj   +3 more sources

High Temperature Superconductivity: the explanation [PDF]

Physica Scripta, 2011
Soon after the discovery of the first high temperature superconductor by Georg Bednorz and Alex Mueller in 1986 the late Sir Nevill Mott answering his own question "Is there an explanation?" [Nature v 327 (1987) 185] expressed a view that the Bose ...
A S Alexandrov, Alexandrov A S, Alexandrov A S, Alexandrov A S, Alexandrov A S, Alexandrov A S, Alexandrov A S, Alexandrov A S, Alexandrov A S, Alexandrov A S, Alexandrov A S, Anderson P W, Beanland J, Cohen M L, Eliashberg G M, Hirsh J E, Meevasana W, Migdal A B, Müller K A, Phillips J C, Phillips J C, Zavaritsky V N   +21 more
core   +2 more sources

High‐Temperature Superconductivity in Perovskite Hydride Below 10 GPa [PDF]

Advanced Science
Hydrogen and hydride materials have long been considered promising materials for high‐temperature superconductivity. However, the extreme pressures required for the metallization of hydrogen‐based superconductors limit their applications.
Mingyang Du, Hongyu Huang, Zihan Zhang, Min Wang, Hao Song, Defang Duan, Tian Cui   +6 more
doaj   +2 more sources

Hydrogen‐Doped c‐BN as a Promising Path to High‐Temperature Superconductivity Above 120 K at Ambient Pressure [PDF]

Advanced Science
Finding high‐temperature superconductivity in light‐weight element containing compounds at atmosphere pressure is currently a research hotspot but has not been reached yet.
Han‐Bin Ding, Rui Niu, Shen‐Ao Li, Ying‐Ming Liu, Xiao‐Jia Chen, Hai‐Qing Lin, Guo‐Hua Zhong   +6 more
doaj   +2 more sources

Phonon-mediated high-temperature superconductivity in clathrate superhydride ThCeH18 under pressure [PDF]

Scientific Reports
Predicting high-temperature superconductivity in hydrogen-rich dense metallic states under pressure remains a significant challenge. The discovery of new phases of metal hydrides is vital for advancing this area of research.
Prutthipong Tsuppayakorn-aek, Wei Luo, Thiti Bovornratanaraks   +2 more
doaj   +2 more sources

High temperature superconductivity. [PDF]

Journal of Advanced Science, 1990
Abstract : The overall goals of this program are to develop the technology of MBE growth of HTSC material, to optimize the performance of HTSC films with high transition temperatures and critical current densities, and to explore the development of electronic devices based on such material.
Shusuke YOMO, Nobuo MORI
  +11 more sources

Cluster structure of superconducting phase and the nature of peaks in the doping dependences of the London penetration depth in iron pnictides

Results in Physics, 2022
The mechanism of formation of dome-like phase diagrams and the features of magnetic field penetration in iron pnictides with hetero- and isovalent doping are considered within the framework of the previously proposed model, which assumes the local ...
K.V. Mitsen, O.M. Ivanenko
doaj   +1 more source