Local Correlation: Implementation and Application to Molecular Response Properties

Russ, Nicholas Joel

26 April 2006

One of the most promising methods for surmounting the high-degree polynomial scaling wall associated with electron correlating wave function methods is the local correlation technique of Pulay and Saebø. They have proposed using a set of localized occupied and virtual orbitals free of the canonical constraint commonly employed in quantum chemistry, resulting in a method that scales linearly (in the asymptotic limit) with molecular size. Pulay and Saeb$oslash; first applied their methods to configuration interaction and later to M$oslash;ller-Plesset perturbation theory. Werner et al. have have extended the local correlation scheme of Pulay and Saeb$oslash; to coupled-cluster theory. One of the pitfalls of the local correlation methods developed by Pulay and Saeb$oslash; is the dependence of domain selection on the molecular geometry. In other words, as the geometry changes the domain structure of the local correlation calculation can change also, leading to discontinuities in the potential energy surface. We have examined the size of these discontinuities for the homolytic bond cleavage of fluoromethane and the heterolytic bond dissociation of singlet ketene and propadienone. Properties such as polarizabilities and optical rotation are realized through linear response theory, where the Hamiltonian is subject to an external perturbation and the wave function is allowed to respond to the applied perturbation. Within the context of local correlation it is necessary to understand how the domain structure alters in response to an applied perturbation. We have proposed using solutions to the CPHF equations (coupled-perturbed Hartree-Fock) in order to predict the correlation response to an applied perturbation. We have applied this technique to the calculation of polarizabilities, with very favorable results, and also to optical rotation, with mixed results. / Ph. D.

coupled cluster

polarizability

optical rotation

local correlation

CC2

Biogeochemical Processes and Seasonal Effects in Flow-Through Mesocosm Reactors Simulating Constructed Wetlands

Tritschler, Sarah J.

28 December 2007

No description available.

Environmental Sciences

Reactors

CC3

SA2

SA1

port height

CC2

P7 P6 P5

Computational And Experimental Studies Towards The Development Of Novel Therapeutics Against Organophosphorus Nerve Agents: Butyrylcholinesterase And Paraoxonase

Vyas, Shubham

12 September 2011

No description available.

Chemistry

Physical Chemistry

Organophosphorus Compounds

Butyrylcholinesterase

Acetylcholinesterase

Pyridinium Oxime

Paraoxonase-1

Excited State

Phosphoryl Azide

Phosphorylnitrene

DFT Calculations

RI-CC2 Calculations

Molecular Dynamics

Molecular Docking