Back to School Savings: Save up to 30% on print books and eBooks. No promo code needed.
Back to School Savings: Save up to 30%
Relativistic Electronic Structure Theory - Fundamentals
1st Edition - November 22, 2002
Editor: Peter Schwerdtfeger
9 7 8 - 0 - 4 4 4 - 5 1 2 4 9 - 9
9 7 8 - 0 - 0 8 - 0 5 4 0 4 6 - 7
The first volume of this two part series is concerned with the fundamental aspects of relativistic quantum theory, outlining the enormous progress made in the last twenty years in… Read more
Save 50% on book bundles
Immediately download your ebook while waiting for your print delivery. No promo code is needed.
The first volume of this two part series is concerned with the fundamental aspects of relativistic quantum theory, outlining the enormous progress made in the last twenty years in this field. The aim was to create a book such that researchers who become interested in this exciting new field find it useful as a textbook, and do not have to rely on a rather large number of specialized papers published in this area.
· No title is currently available that deals with new developments in relativistic quantum electronic structure theory · Interesting and relevant to graduate students in chemistry and physics as well as to all researchers in the field of quantum chemistry · As treatment of heavy elements becomes more important, there will be a constant demand for this title
Chemistry and physics departments; chemical companies and other companies involved in heavy element research.
Chapter 1. Tour Historique Chapter 2. The Dirac Operator Chapter 3. Relativistic Self-Consistent Fields Chapter 4. Nuclear Charge Density Distributions in Quantum Chemistry Chapter 5. Basis Sets for Relativistic Calculations Chapter 6. Post Dirac-Fock-Methods - Electron Correlation Chapter 7. Post Dirac-Fock-Methods - Properties Chapter 8. QED Theory of Atoms Chapter 9. Parity Violation Chapter 10. Relativistic Density Functional Theory: Foundations and Basic Formalism Chapter 11. Two-Component Methods and the Generalized Douglas-Kroll Transformation Chapter 12. Perturbation Theory of Relativistic Effects Chapter 13. Perturbation Theory Based on Quasi-Relativistic Hamiltonians Chapter 14. Relativistic Effective Core Potentials Chapter 15. Relativistic Solid State Theory