Erratum Cite This: J. Chem. Theory Comput. 2018, 14, 1170−1170
pubs.acs.org/JCTC
Correction to Implementation of Constrained DFT for Computing Charge Transfer Rates within the Projector Augmented Wave Method Marko Melander,* Elvar Ö . Jónsson, Jens J. Mortensen, Tejs Vegge, and Juan Maria García Lastra* J. Chem. Theory Comput. 2016, 12 (11), 5367−5378. DOI: 10.1021/acs.jctc.6b00815
I
n the original article k-point integration of eq 51 is incorrect. The corrected version is SAB = ⟨ψA|ψB⟩ = ≈
∫ dk ⟨ψAk|ψBk⟩
∑ wk⟨ψAk|ψBk⟩ = ∑ wk SAB(k) k
k
⎡ = ∑ wk det⎣⎢ k
∫ dr nAα1,αB,1k(r), ∫ dr nAβ1,βB,2k(r), ...⎤⎦⎥ k,α,β
(1)
⟨ψAnk,α|ψBmk,β⟩,
The pair density is defined as nnm = and the determinants are written using the convention of presenting the diagonal values. Similarly, the incorrect k-point integration is presented in eq 52 of the original article. The same equation was also misspelled and the correct version is ̂ |ψ ⟩ = WAB = ⟨ψA|Wab B ≈
∫ dk ⟨ψAk|Wab̂ |ψBk⟩
∑ wk⟨ψAk|Wab̂ |ψBk⟩ k
=
∑ wk Wab(k) (2)
k
with Wab(k) =
, k −1 ∑ (SAB(k)σAiBj ) det[SAB(k)] ij
∑ ⟨ψAik,σ|VcBwcB|ψBjk,σ ⟩ c
(3)
We want to emphasize that the form of the weight matrix presented here (except the corrected k-point summation) was used in all the calculations of the original article, and therefore the results remain unchanged. Also, the error in the k-point integration does not affect the results of the original article as only nonperiodic systems with just one k-point were studied (wk= 1). The error was corrected in the development version of GPAW before any periodic systems were studied, and thus, all work citing the original paper have used the correct k-point integration.
Published: January 29, 2018 © 2018 American Chemical Society
1170
DOI: 10.1021/acs.jctc.8b00053 J. Chem. Theory Comput. 2018, 14, 1170−1170
