Rigorous Screened Interactions for Realistic Correlated Electron Systems

We derive a widely applicable first-principles approach for determining two-body, static effective interactions for low-energy Hamiltonians with quantitative accuracy. The algebraic construction rigorously conserves all instantaneous two-point correlation functions in a chosen model space at the lev...

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Veröffentlicht in:	Physical review letters 2024-02, Vol.132 (7), p.076401-076401, Article 076401
Hauptverfasser:	Scott, Charles J C, Booth, George H
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creator	Scott, Charles J C Booth, George H
description	We derive a widely applicable first-principles approach for determining two-body, static effective interactions for low-energy Hamiltonians with quantitative accuracy. The algebraic construction rigorously conserves all instantaneous two-point correlation functions in a chosen model space at the level of the random phase approximation, improving upon the traditional uncontrolled static approximations. Applied to screened interactions within a quantum embedding framework, we demonstrate these faithfully describe the relaxation of local subspaces via downfolding high-energy physics in molecular systems, as well as enabling a systematically improvable description of the long-range plasmonic contributions in extended graphene.
doi_str_mv	10.1103/PhysRevLett.132.076401
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title	Rigorous Screened Interactions for Realistic Correlated Electron Systems
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