Any rigorous approach to first-order reduced density matrix (Γ) functional theory faces the phase dilemma, that is, having to deal with a large number of possible combinations of signs in terms of the electron–electron interaction energy. This problem was discovered by reducing a ground-state energy generated from an approximate N-particle wavefunction into a functional of Γ, known as the top-down method. Here, we show that the phase dilemma also appears in the bottom-up method, in which the functional E[Γ] is generated by progressive inclusion of N-representability conditions on the reconstructed two-particle reduced density matrix. It is shown that an adequate choice of signs is essential to accurately describe model systems with strong n...
Pragmatic modeling of a chemical system requires a method that will produce results of desirable acc...
We investigate whether the natural orbitals (NOs) minimize ‖Ψ − Φ‖2, where Ψ is a wave function and ...
The key characteristics of electronic excitations of many-electron systems, the excitation energies ...
Strongly correlated materials are now under intense development, and Natural Orbital Functional (NOF...
A thesis submitted in partial fulfilment of the requirements for the degree of Doctor in Physics of ...
The energy functional of the one-particle reduced density matrix (1- RDM) is called natural orbital ...
We perform a direct variational determination of the secondorder (two-particle) density matrix corre...
One of the central problems of solid state physics and quantum chemistry is to find an accurate and ...
A recently proposed series of corrections to the earliest JK -only functionals has considerably impr...
Almost all functionals that are currently used in density matrix functional theory have been created...
The authors have investigated the description of the dispersion interaction within the Piris natural...
A natural orbital functional (NOF) satisfying the properties of the reduced density matrices is crit...
In this work, we analyze the Born, Bogoliubov, Green, Kirkwood, and Yvon (BBGKY) hierarchy of equati...
We use the natural orbitals to define an independent particle system, from which the exact one-parti...
We develop a new family of electronic structure methods for capturing at the same time the dynamic a...
Pragmatic modeling of a chemical system requires a method that will produce results of desirable acc...
We investigate whether the natural orbitals (NOs) minimize ‖Ψ − Φ‖2, where Ψ is a wave function and ...
The key characteristics of electronic excitations of many-electron systems, the excitation energies ...
Strongly correlated materials are now under intense development, and Natural Orbital Functional (NOF...
A thesis submitted in partial fulfilment of the requirements for the degree of Doctor in Physics of ...
The energy functional of the one-particle reduced density matrix (1- RDM) is called natural orbital ...
We perform a direct variational determination of the secondorder (two-particle) density matrix corre...
One of the central problems of solid state physics and quantum chemistry is to find an accurate and ...
A recently proposed series of corrections to the earliest JK -only functionals has considerably impr...
Almost all functionals that are currently used in density matrix functional theory have been created...
The authors have investigated the description of the dispersion interaction within the Piris natural...
A natural orbital functional (NOF) satisfying the properties of the reduced density matrices is crit...
In this work, we analyze the Born, Bogoliubov, Green, Kirkwood, and Yvon (BBGKY) hierarchy of equati...
We use the natural orbitals to define an independent particle system, from which the exact one-parti...
We develop a new family of electronic structure methods for capturing at the same time the dynamic a...
Pragmatic modeling of a chemical system requires a method that will produce results of desirable acc...
We investigate whether the natural orbitals (NOs) minimize ‖Ψ − Φ‖2, where Ψ is a wave function and ...
The key characteristics of electronic excitations of many-electron systems, the excitation energies ...