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W2022120416 endingPage "7154" @default.
W2022120416 startingPage "7140" @default.
W2022120416 abstract "We present a unified treatment of relativistic effects in superconductors. The relativistically correct (Dirac-type) single-particle Hamiltonian describing the quasiparticle spectrum of superconductors is deduced from symmetry considerations and the requirement of the correct nonrelativistic limit. We provide a complete list of all order parameters consistent with the requirement of Lorentz covariance. This list contains the relativistic generalizations of the BCS and the triplet order parameters, among others. Furthermore, we present a symmetry classification of the order parameters according to their behavior under the Lorentz group, generalizing previous treatments that were based on the Galilei group. The considerations in this paper are based only on the concepts of pairing and Lorentz covariance. They can therefore be applied to all situations in which pairing takes place. This includes BCS-type superconductors, as well as the heavy-fermion compounds, high-temperature superconductors, pairing of neutrons and protons in neutron stars, and superfluid helium 3." @default.
W2022120416 created "2016-06-24" @default.
W2022120416 creator A5007292432 @default.
W2022120416 creator A5068515299 @default.
W2022120416 date "1999-03-01" @default.
W2022120416 modified "2023-09-26" @default.
W2022120416 title "Relativistic framework for microscopic theories of superconductivity. I. The Dirac equation for superconductors" @default.
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W2022120416 doi "https://doi.org/10.1103/physrevb.59.7140" @default.
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