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Introduction to Cluster Dynamics
Cluster als mesoskopische Teilchen bilden das Bindeglied zwischen der Atom- und Molekülphysik auf der einen und der Physik der kondensierten Materie auf der anderen Seite. Die technische Entwicklung hin zu immer kleineren Dimensionen erfordert eine umfassende Kenntnis von Systemen, die aus nur "wenigen" Teilchen bestehen. Als Einführung in das Gebiet der Cluster-Physik mit Ausrichtung auf die Clusterdynamik schließt das Buch eine Lücke in der vorhandenen Literatur. Die Beschreibung der Clusterdynamik berücksichtigt sowohl aktuelle Entwicklungen in der Femtosekunden-Spektroskopie als auch im Bereich der zeitabhängigen Dichtefunktionaltheorie.
Theory of Atomic Nuclei, Quasi-particle and Phonons
Unique in scope and treatment, Theory of Atomic Nuclei, Quasi-particle and Phonons gives a microscopic description of the structure of complex nuclei at low and intermediate excitation energies in terms of quasi-particle and phonon operators. A substantial quantity of modern experimental data is collected together and incorporated into the book to complement the theoretical treatment. This source book is an extremely useful research reference of the results of experimental work in the area.
Dynamical Groups and Spectrum Generating Algebras
This book contains comprehensive reviews and reprints on dynamical groups, spectrum generating algebras and spectrum supersymmetries, and their applications in atomic and molecular physics, nuclear physics, particle physics, and condensed matter physics. It is an important source for researchers as well as students who are doing courses on Quantum Mechanics and Advanced Quantum Mechanics.
Dynamical Groups And Spectrum Generating Algebras (In 2 Volumes)
This book contains comprehensive reviews and reprints on dynamical groups, spectrum generating algebras and spectrum supersymmetries, and their applications in atomic and molecular physics, nuclear physics, particle physics, and condensed matter physics. It is an important source for researchers as well as students who are doing courses on Quantum Mechanics and Advanced Quantum Mechanics.
Group Theoretical Methods in Physics
Symmetry is permeating our understanding of nature: Group theoretical methods of intrinsic interest to mathematics have expanded their applications from physics to chemistry and biology. The ICGTMP Colloquia maintain the communication among the many branches into which this endeavor has bloomed. Lie group and representation theory, special functions, foundations of quantum mechanics, and elementary particle, nuclear, atomic, and molecular physics are among the traditional subjects. More recent areas include supersymmetry, superstrings and quantum gravity, integrability, nonlinear systems and quantum chaos, semigroups, time asymmetry and resonances, condensed matter, and statistical physics. Topics such as linear and nonlinear optics, quantum computing, discrete systems, and signal analysis have only in the last few years become part of the group theorists' turf. In Group Theoretical Methods in Physics, readers will find both review contributions that distill the state of the art in a broad field, and articles pointed to specific problems, in many cases, preceding their formal publication in the journal literature.
Capture Gamma-Ray Spectroscopy and Related Topics
The main topics discussed at the symposium were nuclear models and theory, photon-induced reactions, neutron-induced reactions, charged-particle-induced reactions, applications, including nucleosynthesis, and related topics. Separate entries were prepared for the data base for the papers presented.
