High-temperature superconductor

The term high-temperature superconductor was initially employed to designate the new family of cuprate-perovskite ceramic materials discovered by J.G. Bednorz and K.A. Müller in 1986. These materials are characterized by presenting superconductivity at a higher temperature than conventional superconductors (which require temperatures a few degrees above absolute zero (−273.15 °C or −459.67 °F)), and by other unconventional features. So-called high-temperature superconductors are generally considered to be those that demonstrate superconductivity at or above the temperature of liquid nitrogen, or −196 °C (77 K).

Related Topics:
Cuprate - Perovskite - Ceramic - J.G. Bednorz - K.A. Müller - 1986 - Conventional superconductor - Absolute zero - °C - °F - Unconventional - Liquid nitrogen - K

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Recently, other unconventional superconductors have been discovered. Some of them also have unusually high values of the critical temperature Tc, and hence they are sometimes also called high-temperature superconductors, although the record is still held by a cuprate perovskite material (Tc=138 K, that is −135 °C). Nevertheless it is widely believed that if room temperature superconductivity is ever achieved it will be in a different family of materials.

Related Topics:
Unconventional superconductor - Cuprate - Perovskite - Room temperature superconductivity

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