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Dynamic Response of an Electron Gas: Towards the Exact Exchange-Correlation Kernel

J. P. F. LeBlanc, Kun Chen, Kristjan Haule, Nikolay Prokof’ev, I. S. Tupitsyn

2022Physical Review Letters32 citationsDOIOpen Access PDF

Abstract

Precise calculations of dynamics in the homogeneous electron gas (jellium model) are of fundamental importance for design and characterization of new materials. We introduce a diagrammatic Monte Carlo technique based on algorithmic Matsubara integration that allows us to compute frequency and momentum resolved finite temperature response directly in the real frequency domain using a series of connected Feynman diagrams. The data for charge response at moderate electron density are used to extract the frequency dependence of the exchange-correlation kernel at finite momenta and temperature. These results are as important for development of the time-dependent density functional theory for materials dynamics as ground state energies are for the density functional theory.

Topics & Concepts

Feynman diagramStatistical physicsQuantum Monte CarloKernel (algebra)Monte Carlo methodFermi gasPhysicsQuantum field theoryCorrelationElectronic correlationCharge exchangeElectronApplied mathematicsQuantum mechanicsMathematicsStatisticsDiscrete mathematicsGeometryIonSpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesQuantum and electron transport phenomena
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