ECFL theory accounts for density-dependent quasilinear resistivity, small quasiparticle weight, and emergent low-T scales in single-layer high-Tc systems via the t-J model.
Non-perturbative construction of the Luttinger-Ward functional
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abstract
For a system of correlated electrons, the Luttinger-Ward functional provides a link between static thermodynamic quantities on the one hand and single-particle excitations on the other. The functional is useful to derive several general properties of the system as well as for the formulation of thermodynamically consistent approximations. Its original construction, however, is perturbative as it is based on the weak-coupling skeleton-diagram expansion. Here, it is shown that the Luttinger-Ward functional can be derived within a general functional-integral approach. This alternative and non-perturbative approach stresses the fact that the Luttinger-Ward functional is universal for a large class of models.
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cond-mat.str-el 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Overview of the Theory of Extremely Correlated Fermi Liquids
ECFL theory accounts for density-dependent quasilinear resistivity, small quasiparticle weight, and emergent low-T scales in single-layer high-Tc systems via the t-J model.