Theoretical Atomic Physics
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Lectures on Ion-atom Collisions Atomic collisions offer some unique opportunities to study atomic structure theoretical atomic physics and reaction mechanisms in experiment theoretical atomic physics and theory, especially for projectiles of high atomic number provided by modern accelerators. The book is meant as an introduction into the field theoretical atomic physics and provides some basic theoretical understanding of the atomic processes occurring when a projectile hits another atom. It also furnishes the tools for a mathematical description, however, without going deeper into the technical details, which can be found in the literature given. With this aim, the focus is on reactions, in which only a single active electron participates. Collisional excitation, ionization theoretical atomic physics and charge transfer are discussed for collision velocities ranging from slow to comparable to the speed of light. For the highest projectile velocities, energy can be converted into mass, so that electron-positron pairs are created. In addition to the systematic treatment, a theoretical section specializes on electron-electron correlations theoretical atomic physics and three chapters are devoted to selected highlights bordering to surface science theoretical atomic physics and to physics with antiprotons. * Simple access to the theory of collisions between ions theoretical atomic physics and atoms * Systematic treatment of basic features needed for an understanding * Mathematical details are omitted theoretical atomic physics and referred to references * In order to bear out the essential ideas most clearly, a single active electron is assumed in most cases * In selected examples, theoretical results are confronted with experiment * Discussion supported by a large number of illustrations * Selected highlights in borderline fields are presented Copyright (C) Muze Inc. 2005. For personal use only. All rights reserved.
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Molecular Physics The richly illustrated book comprehensively explains the important principles of diatomic theoretical atomic physics and polyatomic molecules theoretical atomic physics and their spectra in two separate, distinct parts. The first part concentrates on the theoretical aspects of molecular physics, such as the vibration, rotation, electronic states, potential curves, theoretical atomic physics and spectra of molecules. The different methods of approximation for the calculation of electronic wave functions theoretical atomic physics and their energy are also covered. The introduction of basics terms used in group theory theoretical atomic physics and their meaning in molecular physics enables an elegant description of polyatomic molecules theoretical atomic physics and their symmetries. Molecular spectra theoretical atomic physics and the dynamic processes involved in their excited states are given its own chapter. The theoretical part then concludes with a discussion of the field of Van der Waals molecules theoretical atomic physics and clusters. The second part is devoted entirely to experimental techniques, such as laser, Fourier, NMR, theoretical atomic physics and ESR spectroscopies, used in the fields of physics, chemistry, biology, theoretical atomic physics and material science. Time-resolved measurements theoretical atomic physics and the influence of chemical reactions by coherent controls are also treated. A list of general textbooks theoretical atomic physics and specialized literature is provided for further reading. With specific examples, definitions, theoretical atomic physics and notes integrated within the text to aid understanding, this is suitable for undergraduates theoretical atomic physics and graduates in physics theoretical atomic physics and chemistry with a knowledge of atomic physics theoretical atomic physics and familiar with the basics of quantum mechanics. Copyright (C) Muze Inc. 2005. For personal use only. All rights reserved.
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theoreticalatomicphysics
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