Open AccessJournal Article
Coupled-cluster calculations of nuclear magnetic resonance chemical shifts
Jürgen Gauss,John F. Stanton +1 more
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TLDR
In this article, the theory and implementation of the gauge-including atomic orbital (GIAO) ansatz for the gauge invariant calculation of nuclear magnetic resonance chemical shifts are described for the coupled cluster singles and doubles (CCSD) approach.Abstract:
Theory and implementation of the gauge‐including atomic orbital (GIAO) ansatz for the gauge‐invariant calculation of nuclear magnetic resonance chemical shifts are described for the coupled‐cluster singles and doubles (CCSD) approach. Results for the shielding constants of the hydrides HF, H2O, NH3, and CH4 as well as for a few multiply bonded systems such as CO, N2, and HCN demonstrate the importance of higher‐order correlation corrections, as good agreement with experiment is only obtained at the CCSD level and to some extent at partial fourth‐order many‐body perturbation theory [SDQ‐MBPT(4)] with the latter slightly overestimating correlation effects due to single and double excitations. For relative chemical shifts, GIAO‐CCSD calculations provide in difficult cases (e.g., CO and CF4) more accurate results than previous GIAO‐MBPT(2) calculations. But, it seems that it is often more important to include rovibrational effects (as well as possible molecule–solvent interactions) than higher‐order correlation corrections. Despite that, GIAO‐CCSD proves to be a powerful tool for the accurate calculation of NMR chemical shifts. Its capabilities as well as its limitations are demonstrated in shielding calculations for formaldehyde, diazomethane, and ozone. At least for the latter, the description provided by the CCSD ansatz is not sufficient and even higher excitations need to be considered.read more
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A comparison of models for calculating nuclear magnetic resonance shielding tensors
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PySCF: the Python-based simulations of chemistry framework
Qiming Sun,Timothy C. Berkelbach,Nick S. Blunt,Nick S. Blunt,George H. Booth,Sheng Guo,Sheng Guo,Zhendong Li,Junzi Liu,James McClain,James McClain,Elvira R. Sayfutyarova,Elvira R. Sayfutyarova,Sandeep Sharma,Sebastian Wouters,Garnet Kin-Lic Chan +15 more
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Response functions from Fourier component variational perturbation theory applied to a time-averaged quasienergy
TL;DR: In this article, it is demonstrated that frequency-dependent response functions can be derived from the time-averaged quasienergy, which plays the same role as the usual energy in time-independent theory, and the same techniques can be used to obtain computationally tractable expressions for response properties, as for energy derivatives in timeindependent theory.
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Hybrid exchange-correlation functional determined from thermochemical data and ab initio potentials
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Ab initio calculation of molecular chiroptical properties
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