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Transport properties and doping evolution of the Fermi surface in cuprates

Measured transport properties of three representative cuprates are reproduced within the paradigm of two electron subsystems, itinerant and localized. The localized subsystem evolves continuously from the Cu 3d 9 hole at half-filling and corresponds to the (pseudo)gapped parts of the Fermi surface....

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Bibliographic Details
Published in:Scientific reports 2023-08, Vol.13 (1), p.13562-13562, Article 13562
Main Authors: Klebel-Knobloch, B., Tabiś, W., Gala, M. A., Barišić, O. S., Sunko, D. K., Barišić, N.
Format: Article
Language:English
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Summary:Measured transport properties of three representative cuprates are reproduced within the paradigm of two electron subsystems, itinerant and localized. The localized subsystem evolves continuously from the Cu 3d 9 hole at half-filling and corresponds to the (pseudo)gapped parts of the Fermi surface. The itinerant subsystem is observed as a pure Fermi liquid (FL) with material-independent universal mobility across the doping/temperature phase diagram. The localized subsystem affects the itinerant one in our transport calculations solely by truncating the textbook FL integrals to the observed (doping- and temperature-dependent) Fermi arcs. With this extremely simple picture, we obtain the measured evolution of the resistivity and Hall coefficients in all three cases considered, including LSCO which undergoes a Lifshitz transition in the relevant doping range, a complication which turns out to be superficial. Our results imply that prior to evoking polaronic, quantum critical point, quantum dissipation, or even more exotic scenarios for the evolution of transport properties in cuprates, Fermi-surface properties must be addressed in realistic detail.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-023-39813-z