
TL;DR
This review discusses the fundamental properties and differences of various unconventional superconductors, highlighting their unique pairing mechanisms and recent discoveries to aid in understanding high-temperature superconductivity.
Contribution
It provides a comparative analysis of nine classes of unconventional superconductors and introduces three emerging classes, aiming to identify common features for theoretical understanding.
Findings
Comparison of 9 unconventional superconductor classes
Identification of common features among different classes
Overview of 3 emerging superconductor classes
Abstract
Conventional superconductivity, as used in this review, refers to electron-phonon coupled superconducting electron-pairs described by BCS theory. Unconventional superconductivity refers to superconductors where the Cooper pairs are not bound together by phonon exchange but instead by exchange of some other kind, e. g. spin fluctuations in a superconductor with magnetic order either coexistent or nearby in the phase diagram. Such unconventional superconductivity has been known experimentally since heavy fermion CeCu2Si2, with its strongly correlated 4f electrons, was discovered to superconduct below 0.6 K in 1979. Since the discovery of unconventional superconductivity in the layered cuprates in 1986, the study of these materials saw Tc jump to 164 K by 1994. Further progress in high temperature superconductivity would be aided by understanding the cause of such unconventional pairing.…
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