Add to ORKGDensity functional theory (DFT) provides a formally exact framework for quantum embedding. The appearance of nonadditive kinetic energy contributions in this context poses significant challenges, but using optimized effective potential (OEP) methods, various groups have devised DFT-in-DFT methods that are equivalent to Kohn–Sham (KS) theory on the whole system. This being the case, we note that a very considerable simplification arises from doing KS theory instead. We then describe embedding schemes that enforce Pauli exclusion via a projection technique, completely avoiding numerically demanding OEP calculations. Illustrative applications are presented using DFT-in-DFT, wave-function-in-DFT, and wave-function-in-Hartree–Fock embedding, and...
Embedded density functional theory (e-DFT) is used to describe the electronic structure of strongly ...
Kohn-Sham (KS) density functional theory (DFT) has paved its way to becoming the most widely used me...
We will describe quantum embedding methods for performing accurate and scalable electronic structure...
Density functional theory (DFT) provides a formally exact framework for quantum embedding. The appea...
Methods that exploit the intrinsic locality of molecular interactions show significant promise in ma...
We describe an embedded density functional theory (DFT) protocol in which the nonadditive kinetic en...
We describe an embedded density functional theory (DFT) protocol in which the nonadditive kinetic en...
Projection-based embedding provides a simple and numerically robust framework for multiscale wavefun...
Projection-based embedding provides a simple and numerically robust framework for multiscale wavefun...
We analyze the sources of error in quantum embedding calculations in which an active subsystem is tr...
We analyze the sources of error in quantum embedding calculations in which an active subsystem is tr...
In the present work, we introduce a self-consistent density-functional embedding technique, which le...
In the present work, we introduce a self-consistent density-functional embedding technique, which le...
Methods where an accurate wavefunction is embedded in a density-functional description of the surrou...
Embedded density functional theory (e-DFT) is used to describe the electronic structure of strongly ...
Embedded density functional theory (e-DFT) is used to describe the electronic structure of strongly ...
Kohn-Sham (KS) density functional theory (DFT) has paved its way to becoming the most widely used me...
We will describe quantum embedding methods for performing accurate and scalable electronic structure...
Density functional theory (DFT) provides a formally exact framework for quantum embedding. The appea...
Methods that exploit the intrinsic locality of molecular interactions show significant promise in ma...
We describe an embedded density functional theory (DFT) protocol in which the nonadditive kinetic en...
We describe an embedded density functional theory (DFT) protocol in which the nonadditive kinetic en...
Projection-based embedding provides a simple and numerically robust framework for multiscale wavefun...
Projection-based embedding provides a simple and numerically robust framework for multiscale wavefun...
We analyze the sources of error in quantum embedding calculations in which an active subsystem is tr...
We analyze the sources of error in quantum embedding calculations in which an active subsystem is tr...
In the present work, we introduce a self-consistent density-functional embedding technique, which le...
In the present work, we introduce a self-consistent density-functional embedding technique, which le...
Methods where an accurate wavefunction is embedded in a density-functional description of the surrou...
Embedded density functional theory (e-DFT) is used to describe the electronic structure of strongly ...
Embedded density functional theory (e-DFT) is used to describe the electronic structure of strongly ...
Kohn-Sham (KS) density functional theory (DFT) has paved its way to becoming the most widely used me...
We will describe quantum embedding methods for performing accurate and scalable electronic structure...