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Title: Ferromagnetism beyond Lieb's theorem

Journal Article · · Physical Review B
 [1];  [1];  [1];  [1];  [2]
  1. Univ. Federal do Rio de Janeiro, Rio de Janeiro (Brazil). Inst. de Fisica
  2. Univ. of California, Davis, CA (United States). Dept. of Physics
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The noninteracting electronic structures of tight-binding models on bipartite lattices with unequal numbers of sites in the two sublattices have a number of unique features, including the presence of spatially localized eigenstates and flat bands. When a uniform on-site Hubbard interaction U is turned on, Lieb proved rigorously that at half-filling (ρ = 1) the ground state has a nonzero spin. In this paper we consider a “CuO2 lattice” (also known as “Lieb lattice,” or as a decorated square lattice), in which “d orbitals” occupy the vertices of the squares, while “ p orbitals” lie halfway between two d orbitals; both d and p orbitals can accommodate only up to two electrons. We use exact determinant quantum Monte Carlo (DQMC) simulations to quantify the nature of magnetic order through the behavior of correlation functions and sublattice magnetizations in the different orbitals as a function of U and temperature; we have also calculated the projected density of states, and the compressibility. Here, we study both the homogeneous (H) case, Ud = Up, originally considered by Lieb, and the inhomogeneous (IH) case, Ud ≠ Up. For the H case at half-filling, we found that the global magnetization rises sharply at weak coupling, and then stabilizes towards the strong-coupling (Heisenberg) value, as a result of the interplay between the ferromagnetism of like sites and the antiferromagnetism between unlike sites; we verified that the system is an insulator for all U. For the IH system at half-filling, we argue that the case Up ≠ Ud falls under Lieb's theorem, provided they are positive definite, so we used DQMC to probe the cases Up = 0, Ud = U and Up = U, Ud = 0. We found that the different environments of d and p sites lead to a ferromagnetic insulator when Ud = 0; by contrast, Up = 0 leads to to a metal without any magnetic ordering. In addition, we have also established that at density ρ = 1/3, strong antiferromagnetic correlations set in, caused by the presence of one fermion on each d site.

Research Organization:
Univ. of California, Davis, CA (United States)
Sponsoring Organization:
USDOE National Nuclear Security Administration (NNSA)
Grant/Contract Number:
NA0002908; SC0014671
OSTI ID:
1477007
Alternate ID(s):
OSTI ID: 1328225
Journal Information:
Physical Review B, Vol. 94, Issue 15; ISSN 2469-9950
Publisher:
American Physical Society (APS)Copyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 29 works
Citation information provided by
Web of Science

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Cited By (10)

Experimental realization and characterization of an electronic Lieb lattice journal April 2017
Magnon-impurity interaction effect on the magnonic heat capacity of the Lieb lattice journal December 2018
Magnetic order in a Fermi gas induced by cavity-field fluctuations journal October 2018
Impact of strong correlations on a band topological insulator on the Lieb lattice journal July 2019
Magnetization, d -wave superconductivity, and non-Fermi-liquid behavior in a crossover from dispersive to flat bands journal September 2019
Quantum phase transitions of multispecies Dirac fermions journal June 2018
Magnetic Shell Structure of 2D-Trapped Fermi Gases in the Flat-Band Lieb Lattices journal January 2019
Magnetic orders in a Fermi gas induced by cavity-field fluctuations text January 2018
Magnetization, d-wave superconductivity and non-Fermi liquid behavior in a crossover from dispersive to flat bands text January 2019
Impact of strong correlations on a band topological insulator on the Lieb lattice text January 2019

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