Rigorous Formalization of Orbital Functionals
Neil Qiang Su
Abstract
Functionals that explicitly depend on occupied, unoccupied, or fractionally occupied orbitals are rigorously formalized using Clifford algebras, and a variational principle is established that facilitates orbital (and occupation) optimization as a formal implementation method. Theoretically, these methodologies circumvent the limitations encountered in the original Kohn-Sham and related methods, particularly when the interacting system's electron density does not match that of any noninteracting reference system. This Letter redefines orbital (and occupation) functionals from a novel perspective, positioning them not merely as extensions of traditional density functionals, but as superior, rigorous alternatives.
Topics & Concepts
Atomic orbitalPerspective (graphical)Theoretical physicsClifford algebraDensity functional theoryPhysicsComputer scienceElectronStatistical physicsQuantum mechanicsMathematicsAlgebra over a fieldPure mathematicsArtificial intelligenceAdvanced Chemical Physics StudiesCatalysis and Oxidation ReactionsInorganic Chemistry and Materials