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W2036522275 abstract "Fermiology, the shape and size of the Fermi surface, underpins the low-temperature physical properties of a metal. Recent investigations of the Fermi surface of high-${T}_{c}$ superconductors, however, show a most unusual behavior: upon addition of carriers, ``Fermi'' pockets appear around nodal (hole doping) and antinodal (electron doping) regions of the Brillouin zone in the ``pseudogap'' state. With progressive doping, $ensuremath{delta}$, these evolve into well-defined Fermi surfaces around optimal doping $({ensuremath{delta}}_{text{opt}})$, with no pseudogap. Correspondingly, various physical responses, including $d$-wave superconductivity, evolve from highly anomalous up to ${ensuremath{delta}}_{text{opt}}$, to more conventional beyond. Describing this evolution holds the key to understanding high-temperature superconductivity. Here, we present ab initio quantum chemical results for cuprates, in an attempt to provide a quantitative description of the evolution of the Fermi surface with $ensuremath{delta}$. Our results constitute an ab initio justification for several hitherto proposed semiphenomenological theories, offering a unified basis for understanding of various unusual physical responses of cuprates." @default.
W2036522275 created "2016-06-24" @default.
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W2036522275 date "2008-10-10" @default.
W2036522275 modified "2023-09-23" @default.
W2036522275 title "Fermiology of cuprates from first principles: From small pockets to the Luttinger Fermi surface" @default.
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W2036522275 doi "https://doi.org/10.1103/physrevb.78.165107" @default.
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