Thermal fluctuations in superconducting phases with chiral d + i d and s symmetry on a triangular lattice

The behavior of thermal fluctuations of a superconducting order parameter with extended and chiral + i symmetry is investigated. The study is carried out on a triangular lattice within the framework of the quasi-two-dimensional single-band model with attraction between electrons at neighboring sites...

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Veröffentlicht in:Journal of physics. Condensed matter 2021-05, Vol.33 (21)
Hauptverfasser: Groshev, A G, Arzhnikov, A K
Format: Artikel
Sprache:eng
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Zusammenfassung:The behavior of thermal fluctuations of a superconducting order parameter with extended and chiral + i symmetry is investigated. The study is carried out on a triangular lattice within the framework of the quasi-two-dimensional single-band model with attraction between electrons at neighboring sites. The method of consistent consideration of the order parameter fluctuations and the charge carrier scattering by fluctuations of coupled electron pairs, based on the theory of functional integration is used. The distribution functions of the phase fluctuation probabilities depending on temperature and charge carrier concentration are obtained. The temperature dependences of the amplitudes of the averaged superconducting order parameter are calculated. A phase diagram of superconducting states is constructed for the entire range of variation in the charge carrier concentration 0 < < 2. Near the boundaries of this range, topologically trivial superconducting states with extended symmetry are realized, while a superconducting state with topologically nontrivial chiral + i symmetry is realized between them. The calculated anomalous self-energies are compared with the experimental ones obtained using machine learning techniques.
ISSN:1361-648X
DOI:10.1088/1361-648X/abe6e0