Screening nature of the van der Waals density functional method: A review and analysis of the many-body physics foundation
Per Hyldgaard, Yang Jiao, and Vivekanand Shukla

TL;DR
This paper reviews the theoretical foundations and screening properties of the van der Waals density functional (vdW-DF) method, emphasizing its many-body physics basis and validating its performance across molecular and surface systems.
Contribution
It introduces a consistent class of vdW-DFs adhering to Lindhard screening, especially the vdW-DF-cx version, and demonstrates their systematic application and validation in diverse physical contexts.
Findings
vdW-DF-cx accurately predicts molecular interactions
The method effectively models metal surface energies and work functions
Screening insights help analyze nonlocal correlation contributions
Abstract
We review the screening nature and many-body physics foundation of the van der Waals density functional (vdW-DF) method, a systematic approach to construct truly nonlocal exchange-correlation energy density functionals. To that end we define and focus on a class of consistent vdW-DF versions that adhere to the Lindhard screening logic of the full method formulation. The consistent-exchange vdW-DF-cx version and its spin extension represent the first examples of this class; In general, consistent vdW-DFs reflect a concerted expansion of a formal recast of the adiabatic-connection formula, an exponential summation of contributions to the local-field response, and the Dyson equation. We argue that the screening emphasis is essential because the exchange-correlation energy reflects an effective electrodynamics set by a long-range interaction. Two consequences are that 1) there are, in…
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