Electron Correlation in Molecules - ab initio Beyond Gaussian Quantum Chemistry

Herausgegeben:Hoggan, Philip E.; Ozdogan, Telhat

• Gebundenes Buch

Produktbeschreibung

Electron Correlation in Molecules - ab initio Beyond Gaussian Quantum Chemistry presents a series of articles concerning important topics in quantum chemistry, including surveys of current topics in this rapidly-developing field that has emerged at the cross section of the historically established areas of mathematics, physics, chemistry, and biology.

Produktdetails

• Advances in Quantum Chemistry Volume 73
• Verlag: Academic Press / Elsevier Science & Technology
• Artikelnr. des Verlages: S0065-3276(16)X0002-0
• Englisch
• Abmessung: 23mm x 152mm x 229mm
• Gewicht: 860g
• ISBN-13: 9780128030608
• Artikelnr.: 44381021

Autorenporträt

I was born in 1971 in Tatvan/Turkey, where I studied my primary and secondary education. In 1994, I graduated from the Physics Department of Faculty of Education in 19 Mayis University and in 1997, I completed my master dissertation named "Investigation of DEPT and 2D DEPT J-Resolved NMR of Some Spin Systems by Product Operator Theory?. I finished my doctoral thesis named "Combined Theory of Electric Multipole Moment Tensors and Application to Polyatomic Molecules? in 2000. I have been in Erlangen University in Germany as a researcher for 3 months and after this I was assigned to the Rize Faculty of Arts and Sciences in Black Sea Technical University as an Assist. Proffessor. In 2007, I became Assoc. Professor in Department of Physics in Atomic and Molecular Physics in Recep Tayyip Erdogan University and worked in the same position until 2013. Same year, I became a Professor and started to work at Amasya University, Computer and Instructional Technologies Education Program of Facu

lty of Education and I am still working at the same university and department.

Inhaltsangabe

Section I: Exponential Type Basis Quantum Chemistry
1. A Sturmian Approach to Photoionization of Molecules
2. General Coalescence Conditions for the Exact Wave Functions: Higher-Order Relations for Coulombic and Non-Coulombic Systems
3. Exponentially Correlated Wave Functions for Four-Body Systems
4. Analytic Formulas for Two-Center Two-Electron Integrals with Exponential Functions
5. Singlet and Triplet Bound State Spectra in the Four-Electron Be-Like Atomic Systems
6. An Application of the Gaussian Transform for Approximating Some Bessel Functions and Multicenter Integrals Involving 1s Slater-Type Orbitals
7. Size-Extensivity Corrections in Single- and Multireference Configuration Interaction Calculations
8. Introducing a Polynomial Expression of Molecular Integrals for Algebraic the Molecular Orbital (MO) Equation
9. Analytic Calculation of Momentum Distribution and Compton Profiles of Atoms Using Hartree-Fock-Roothaan Method: Applications to Atoms 2 ? Z ? 10
10. Evaluation of One-Electron Basic Integrals of Irregular Solid Harmonics and Slater-Type Orbitals Using Fourier Transforms

Section II: Electron Correlation in Molecules and Solids
11. Excitation Energies of Molecules from Ensemble Density Functional Theory: Multiconfiguration Approaches
12. Application of the Space-Pseudo-Time Method to Density Functional Theory
13. Potential Energy Curves of NaK Molecule from All-Electron Multireference-Coupled Cluster Calculations
14. The Correlation Effects in Density Functional Theory Along the Dissociation Path
15. Introduction to the Variational and Diffusion Monte Carlo Methods
16. Configuration Interaction Monte Carlo with Coupled Clusters Wave Functions
17. X-Ray Constrained Wave Functions: Fundamentals and Effects of the Molecular Orbitals Localization
18. Electron Impact Atomic and Ionic Ionization: Analytical, Semiempirical, and Semiclassical Methods