期刊
PHYSICAL REVIEW B
卷 79, 期 12, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.79.125109
关键词
density functional theory; energy gap; excited states; HF calculations; quasiparticles
We use projector operators to correct the Kohn-Sham Hamiltonian of density functional theory (KS-DFT) so that, in finite systems, the resulting mean-field scheme yields virtual orbitals and energy gaps in better agreement with those predicted by quasiparticle theory. The proposed correction term is a scissorslike operator of the form (I-rho)delta H(I-rho), where I is the identity operator, rho is the N-particle KS-DFT density matrix, and delta H is the difference between the N+1- and N-particle Kohn-Sham Hamiltonians. Such a term replaces the Kohn-Sham virtual orbitals of the N-particle system by the highest occupied molecular orbital and virtual orbitals of the system with N+1 particles in an attempt to mimic a true quasiparticle spectrum. The physical origin of the proposed correction is discussed and illustrated by considering a system of interacting electrons-the Moshinsky atom-where the gap can be computed exactly. A local-density approximation (LDA) is then used to evaluate delta H in order to compute the gaps and orbitals of a variety of small molecules to find that the approximation improves the agreement with both experiment and computationally more demanding methods. The similarity between the corrected and Hartree-Fock virtual orbitals is illustrated and the extent to which the bare LDA virtual orbitals are improved is considered.
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