Magnetic linear response properties calculations with the Gaussian and augmented-plane-wave method

Authors :: Weber, V
Iannuzzi, M
Giani, S
Hutter, J
Declerck, R
Waroquier, M
Weber, V
Iannuzzi, M
Giani, S
Hutter, J
Declerck, R
Waroquier, M
Source :: Weber, V; Iannuzzi, M; Giani, S; Hutter, J; Declerck, R; Waroquier, M (2009). Magnetic linear response properties calculations with the Gaussian and augmented-plane-wave method. Journal of Chemical Physics, 131(1):014106.
Publication Year :: 2009
Abstract: We introduce a method for the all-electron calculation of the NMR chemical shifts and the EPR g tensor using the Gaussian and augmented-plane-wave method. The presented approach is based on the generalized density functional perturbation theory. The method is validated by comparison with other theoretical methods for a selection of small molecules. We also present two exemplary applications that involve the calculation of the chemical shifts of a hydrated adenine and the g tensor for the E-1(') center in alpha-quartz using a quantum mechanical/molecular mechanical approach.

Database :: OAIster
Journal :: Weber, V; Iannuzzi, M; Giani, S; Hutter, J; Declerck, R; Waroquier, M (2009). Magnetic linear response properties calculations with the Gaussian and augmented-plane-wave method. Journal of Chemical Physics, 131(1):014106.
Notes :: application/pdf, application/pdf, https://www.zora.uzh.ch/id/eprint/19940/39/RP_Weber_JCP_2009.pdf, English
Publication Type :: Electronic Resource
Accession number :: edsoai.ocn952662489
Document Type :: Electronic Resource

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