The highly positive affirmation and wide reception that this book continues to receive from professors and students ahke is the occasion for this 7th edition. Once again we have included a number of valuable suggestions for improvements, which we address as appropriate. In addition, we refer to a number of developments in atomic physics. Of these new developments in regard to exotic atoms, we mention antihydrogen in par ticular, because fundamental experiments in matter and antimatter can be expected in the future. Furthermore, we have inserted a chapter on the behaviour of atoms in strong…mehr
The highly positive affirmation and wide reception that this book continues to receive from professors and students ahke is the occasion for this 7th edition. Once again we have included a number of valuable suggestions for improvements, which we address as appropriate. In addition, we refer to a number of developments in atomic physics. Of these new developments in regard to exotic atoms, we mention antihydrogen in par ticular, because fundamental experiments in matter and antimatter can be expected in the future. Furthermore, we have inserted a chapter on the behaviour of atoms in strong elec trical fields. Experiments with corresponding lasers could only recently be realized. We thank our Jenaer colleague, R. Sauerbrey, for his contribution of this chapter. We have also included a new chapter on the behaviour of the hydrogen atom in strong magnetic fields. The results are of profound interest for two very different fields of physics: on the one hand, according to classical physics, one expects chaotic behaviour from Rydberg atoms in magnetic fields that can be created in the laborato ry; thus, an association can be drawn to aspects of chaos theory and the problems of quantum chaos. On the other hand, the very strong fields necessary for low quantum numbers are realized in the cosmos, in particular with white dwarfs and neutron stars.
Hermann Haken is Professor of the Institute for Theoretical Physics at the University of Stuttgart. He is known as the founder of synergetics. His research has been in nonlinear optics (in particular laser physics), solid state physics, statistical physics, and group theory. After the implementation of the first laser in 1960, Professor Haken developed his institute to an international center for laser theory. The interpretation of the laser principles as self organization of non equilibrium systems paved the way to the development of synergetics, of which Haken is recognized as the founder. Hermann Haken has been visiting professor or guest scientist in England, France, Japan, USA, Russia, and China. He is the author of some 23 textbooks and monographs that cover an impressive number of topics from laser physics to synergetics, and editor of a book series in synergetics. For his pathbreaking work and his influence on academic research, he has been awarded many-times. Among others
, he is member of the Order "Pour le merite" and received the Max Planck Medal in 1990.
Inhaltsangabe
The Mass and Size of the Atom.- Isotopes.- The Nucleus of the Atom.- The Photon.- The Electron.- Some Basic Properties of Matter Waves.- Bohr's Model of the Hydrogen Atom.- The Mathematical Framework of Quantum Theory.- Quantum Mechanics of the Hydrogen Atom.- Lifting of the Orbital Degeneracy in the Spectra of Alkali Atoms.- Orbital and Spin Magnetism. Fine Structure.- Atoms in a Magnetic Field: Experiments and Their Semiclassical Description.- Atoms in a Magnetic Field: Quantum Mechanical Treatment.- Atoms in an Electric Field.- General Laws of Optical Transitions.- Many-Electron Atoms.- X-Ray Spectra, lnternal Shells.- Structure of the Periodic System. Ground States of the Elements.- Nuclear Spin, Hyperfine Structure.- The Laser.- Modern Methods of Optical Spectroscopy.- Progress in Quantum Physics: A Deeper Understanding and New Applications.- Fundamentals of the Quantum Theory of Chemical Bonding.
The Mass and Size of the Atom.- Isotopes.- The Nucleus of the Atom.- The Photon.- The Electron.- Some Basic Properties of Matter Waves.- Bohr's Model of the Hydrogen Atom.- The Mathematical Framework of Quantum Theory.- Quantum Mechanics of the Hydrogen Atom.- Lifting of the Orbital Degeneracy in the Spectra of Alkali Atoms.- Orbital and Spin Magnetism. Fine Structure.- Atoms in a Magnetic Field: Experiments and Their Semiclassical Description.- Atoms in a Magnetic Field: Quantum Mechanical Treatment.- Atoms in an Electric Field.- General Laws of Optical Transitions.- Many-Electron Atoms.- X-Ray Spectra, lnternal Shells.- Structure of the Periodic System. Ground States of the Elements.- Nuclear Spin, Hyperfine Structure.- The Laser.- Modern Methods of Optical Spectroscopy.- Progress in Quantum Physics: A Deeper Understanding and New Applications.- Fundamentals of the Quantum Theory of Chemical Bonding.
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