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High-frequency asymptotics of the vertex function: Diagrammatic parametrization and algorithmic implementation

Nils Wentzell, Gang Li, Agnese Tagliavini, Ciro Taranto, G. Rohringer, Karsten Held, A. Toschi, Sabine Andergassen

2020Physical review. B./Physical review. B110 citationsDOIOpen Access PDF

Abstract

Vertex functions are a crucial ingredient of several forefront many-body algorithms in condensed matter physics. However, the full treatment of their frequency and momentum dependence severely restricts numerical calculations. A significant advancement requires an efficient treatment of the high-frequency asymptotic behavior of the vertex functions. In this work, we first provide a detailed diagrammatic analysis of the high-frequency structures and their physical interpretation. Based on these insights, we propose a parametrization scheme, which captures the whole high-frequency domain for arbitrary values of the Coulomb interaction and electronic density, and we discuss the details of its algorithmic implementation in many-body solvers based on parquet equations as well as functional renormalization group schemes. Finally, we assess its validity by comparing our results for a single impurity Anderson model with exact diagonalization calculations. The proposed parametrization is pivotal for the algorithmic development of all quantum many-body methods based on vertex functions arising from both local and nonlocal static microscopic interactions as well as effective dynamic interactions which uniformly approach a static value for large frequencies. In this way, our present technique can substantially improve vertex-based diagrammatic approaches including spatial correlations beyond dynamical mean-field theory.

Topics & Concepts

Parametrization (atmospheric modeling)Diagrammatic reasoningVertex (graph theory)PhysicsStatistical physicsCoulombRenormalizationApplied mathematicsMathematicsQuantum mechanicsComputer scienceTheoretical computer scienceGraphProgramming languageRadiative transferElectronPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaQuantum many-body systems
High-frequency asymptotics of the vertex function: Diagrammatic parametrization and algorithmic implementation | Litcius