Quantum Chemistry Methods

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Quantum Chemistry Methods

Authors : Ghania BOUCEKKINE, Abdou BOUCEKKINE

Publication date: January 10, 2017 | Lire en français

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Overview

ABSTRACT

It is currently possible to use quantum computation to evaluate, with high accuracy, different molecular properties and simulate complex reaction processes. Different methods for solving the Schrödinger equation are presented, those based on the Hartree-Fock theory (HF) together with the latest techniques that yield accurate solutions of the equation. Those based on density functional theory (DFT) and time-dependent DFT (TD-DFT) are among the main tools of current computational chemistry. Technical aspects are also addressed, such as the atomic orbital base sets to be used, solvation, quantum mechanics-molecular mechanics (QM/MM) hybrid methods, and molecular dynamics.

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AUTHORS

  • Ghania BOUCEKKINE : Doctor of Science

  • Abdou BOUCEKKINE : Professor Emeritus Institute of Chemical Sciences of Rennes, UMR 6226 CNRS University of Rennes 1, Rennes, France

 INTRODUCTION

The ever-increasing development of computer technology has led to a boom in numerical simulation and modeling methods in all fields, from economics to meteorology, biochemistry and nuclear physics. In this context, and as far as the physico-chemical properties of matter are concerned, quantum chemical methods can be used to study a large number of molecular properties, and in particular to simulate chemical reactions and even biochemical processes. For any molecular system, for example, we can now compute :

  • energy quantities: total energy, ionization energy, electron affinity;

  • geometric quantities: bond lengths and angles, conformations ;

  • spectroscopic properties: ultraviolet-visible, infrared and microwave spectra, luminescence spectra ;

  • electrical properties: dipole and multipole moments, polarizabilities and hyperpolarizabilities;

  • magnetic properties: NMR chemical shifts and coupling constants, magnetic susceptibilities and couplings, electron paramagnetic resonance (EPR) g and A tensors.

In this article, we present various methods for solving Schrödinger's equation, including those based on Hartree-Fock (HF) theory and post-HF correlated techniques, which enable precise solutions of the equation to be achieved, as well as those based on density functional theory (DFT) and time-dependent DFT (TD-DFT), which are among the main tools of current computational chemistry. Technical aspects are also covered, such as the atomic orbital bases to be used, solvation, mixed quantum mechanical/molecular mechanical (QM/MM) methods and molecular dynamics. A detailed example of molecular orbital calculation is also presented.

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KEYWORDS

schrödinger equation   |   Hartree-Fock theory   |   electronic correlation   |   atomic orbitals   |   solvation   |   TD-DFT

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