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W2073274546 abstract "The theoretical need to study the properties of the Fe-based high-${T}_{c}$ superconductors using reliable many-body techniques has highlighted the importance of determining what is the minimum number of orbital degrees of freedom that will capture the physics of these materials. While the shape of the Fermi surface (FS) obtained with the local-density approximation (LDA) can be reproduced by a two-orbital model, it has been argued that the bands that cross the chemical potential result from the strong hybridization of three of the $text{Fe}text{ }3d$ orbitals. For this reason, a three orbital Hamiltonian for LaOFeAs obtained with the Slater-Koster formalism by considering the hybridization of the $text{As}text{ }p$ orbitals with the $text{Fe}text{ }{d}_{xz}$, ${d}_{yz}$, and ${d}_{xy}$ orbitals is discussed here. This model reproduces qualitatively the FS shape and orbital composition obtained by LDA calculations for undoped LaOFeAs when four electrons per Fe are considered. Within a mean-field approximation, its magnetic and orbital properties in the undoped case are here described for intermediate values of $J/U$. Increasing the Coulomb repulsion $U$ at zero temperature, four different regimes are obtained: (1) paramagnetic, (2) magnetic $(ensuremath{pi},0)$ spin order, (3) the same $(ensuremath{pi},0)$ spin order but now including orbital order, and finally (4) a magnetic and orbital ordered insulator. The spin-singlet pairing operators allowed by the lattice and orbital symmetries are also constructed. It is found that for pairs of electrons involving up to diagonal nearest-neighbors sites, the only fully gapped and purely intraband spin-singlet pairing operator is given by $ensuremath{Delta}(mathbf{k})=f(mathbf{k}){ensuremath{sum}}_{ensuremath{alpha}}{d}_{mathbf{k},ensuremath{alpha},ensuremath{uparrow}}{d}_{ensuremath{-}mathbf{k},ensuremath{alpha},ensuremath{downarrow}}$ with $f(mathbf{k})=1$ or $text{cos}text{ }{k}_{x}text{ }text{cos}text{ }{k}_{y}$ which would arise only if the electrons in all different orbitals couple with equal strength to the source of pairing." @default.
W2073274546 created "2016-06-24" @default.
W2073274546 creator A5032925740 @default.
W2073274546 creator A5039945858 @default.
W2073274546 creator A5047251521 @default.
W2073274546 creator A5080797473 @default.
W2073274546 date "2010-01-14" @default.
W2073274546 modified "2023-09-30" @default.
W2073274546 title "Three orbital model for the iron-based superconductors" @default.
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W2073274546 doi "https://doi.org/10.1103/physrevb.81.014511" @default.
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