Introduction to Experiments and Theory
Buch, Englisch, 467 Seiten, Paperback, Format (B × H): 203 mm x 254 mm, Gewicht: 1045 g
ISBN: 978-3-642-97569-1
Verlag: Springer
This fourth edition contains a few additional figures. Otherwise only typographical er rors have been removed. The final chapter on Fundamentals of the Quantum Theory of Chemical Bonding is continued in an extended way in the textbook Molecular Physics and Elements of Quantum Chemistry by the same authors. This book contains, in particular, a profound presentation of group theory as applied to atoms and molecules. Furthermore, the in teraction between atoms and molecules and light is treated in detail. We thank again Springer-Verlag, in particular Dr. H.1. Kblsch and Mr. C.-D. Bachem for their excellent cooperation as always, and Prof. W. D. Brewer for his con tinuous support in translating our German text. Stuttgart, February 1994 H. Haken H. C. Wolf Preface to the Third Edition The second edition of this book again enjoyed a very positive reception from both uni versity teachers and students. In this edition we have removed all of the typographical errors that came to our attention. In order to keep the book as current as possible, new developments in the direct observation of individual atoms in electromagnetic traps (Paul traps) and of atoms in molecules on solid surfaces using the scanning tunnel microscope have been added to this edition.
Zielgruppe
Professional/practitioner
Weitere Infos & Material
1. Introduction.- 2. The Mass and Size of the Atom.- 3. Isotopes.- 4. The Nucleus of the Atom.- 5. The Photon.- 6. The Electron.- 7. Some Basic Properties of Matter Waves.- 8. Bohr’s Model of the Hydrogen Atom.- 9. The Mathematical Framework of Quantum Theory.- 10. Quantum Mechanics of the Hydrogen Atom.- 11. Lifting of the Orbital Degeneracy in the Spectra of Alkali Atoms.- 12. Orbital and Spin Magnetism. Fine Structure.- 13. Atoms in a Magnetic Field: Experiments and Their Semiclassical Description.- 14. Atoms in a Magnetic Field: Quantum Mechanical Treatment.- 15. Atoms in an Electric Field.- 16. General Laws of Optical Transitions.- 17. Many-Electron Atoms.- 18. X-Ray Spectra, Internal Shells.- 19. Structure of the Periodic System. Ground States of the Elements.- 20. Nuclear Spin, Hyperfine Structure.- 21. The Laser.- 22. Modern Methods of Optical Spectroscopy.- 23. Fundamentals of the Quantum Theory of Chemical Bonding.- A. The Dirac Delta Function and the Normalisation of the Wavefunction of a Free Particle in Unbounded Space.- B. Some Properties of the Hamiltonian Operator, Its Eigenfunctions and Its Eigenvalues.- C. Derivation of Heisenberg’s Uncertainty Relation.- Solutions to the Problems.- Bibliography of Supplementary and Specialised Literature.- Fundamental Constants of Atomic Physics (Inside Front Cover).- Energy Conversion Table (Inside Back Cover).
