Symposia on Few-Body Systems and Multiparticle Dynamics. AIP (American Institute of Physics) Conference Proceedings 162

Symposia on Few-Body Systems and Multiparticle Dynamics. AIP (American Institute of Physics) Conference Proceedings 162

Author: David A. Micha

Publisher:

Published: 1988

Total Pages: 10

ISBN-13:

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Three Symposia were organized, on: (I) Bound States of Few body systems; (II) Collision dynamics of few body systems; and (III) Few body dynamics in larger systems. They covered ground state properties, correlation of particles and chaotic motion; photodetachment, electron capture and break up dynamics; aggregate structure, reactivity and phase transitions. Physical systems studied were quarks, nuclei, atoms, atomic and molecular clusters. Keywords: Few body Systems; Multiparticle dynamics; Chaotic systems; Quark model; Trinucleon systems; Photodetachment; Clusters.


Coulomb Interactions in Nuclear and Atomic Few-Body Collisions

Coulomb Interactions in Nuclear and Atomic Few-Body Collisions

Author: Frank S. Levin

Publisher: Springer Science & Business Media

Published: 2013-11-21

Total Pages: 360

ISBN-13: 1475798806

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This series, Finite Systems and Multipartide Dynamics, is intended to provide timely reviews of current research topics, written in a style sufficient ly pedagogic so as to allow a nonexpert to grasp the underlying ideas as well as understand technical details. The series is an outgrowth of our involvement with three interdisciplin ary activities, namely, those arising from the American Physical Society's Topical Group on Few-Body Systems and Multipartide Dynamics, the series of Gordon Research Conferences first known by the title "Few-Body Problems in Chemistry and Physics" and later renamed "Dynamics of Simple Systems in Chemistry and Physics," and the series of Sanibel Symposia, sponsored in part by the University of Florida. The vitality of these activities and the enthusiastic response to them by researchers in various subfields of physics and chemistry have convinced us that there is a place-even a need-for a series of timely reviews on topics of interest not only to a narrow band of experts but also to a broader, interdisciplinary readership. lt is our hope that the emphasis on pedagogy will permit at least some of the books in the series to be useful in graduate-level courses. Rather than use the adjective "Few-Body" or "Simple" to modify the word "Systems" in the title, we have chosen "Finite. " It better expresses the wide range of systems with which the reviews of the series may deal.


International Conference on Few-Body Systems and Multiparticle Dynamics Held in Crystal City, Virginia on 20-21 April 198. AIP Conference Proceedings 162

International Conference on Few-Body Systems and Multiparticle Dynamics Held in Crystal City, Virginia on 20-21 April 198. AIP Conference Proceedings 162

Author: Rita G. Lerner

Publisher:

Published: 1987

Total Pages: 297

ISBN-13:

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Contents: Introduction to the Symposia on Few-Body Systems and Multiparticle Dynamics; PART I: Bound States Of Few-Body Systems-- The Trinucleon Bound-State System, Monte Carlo Techniques for Ground-State Properties, Quarks and Nucleon-Nucleon Correlations, Eigenfunctions and Periodic Orbits in Classically Chaotic Systems: Order in Chaos?, The Quark Model and the Nucleon-Baryon Interaction; PART II: Collision Dynamics Of Few-Body Systems-- Time Dependent Approach to Photodetachment in E, B, and Parallel E and B Fields, Deuteron-Nucleus Collisions: Reduction of a Many-Fermion Collision System to an Equivalent Three-Body Model, Coincidence Reactions and the Three-Body Structure of Lithium-6, Three-Body Theory of Electron Capture, The Time-Dependent Hartree-Fock Method and Chaos in Nuclear Dynamics; PART III: Few-Body Dynamics In Larger Systems-- Microscopic Cluster Theory in Nuclear Physics, Simulations of Structure, Dynamics and Transformations in Finite Aggregates, Reactive Flux Correlation Functions and Monte Carlo Evaluation of Real Time Path Integrals, Solid and Liquid Molecules and Microclusters.


Lectures on the Theory of Few-Body Systems

Lectures on the Theory of Few-Body Systems

Author: Vladimir B. Belyaev

Publisher: Springer

Published: 1990-07-20

Total Pages: 156

ISBN-13:

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Nuclear physics is undoubtedly a many-body problem. A nice introduction into the present status of this subject may be found in the comprehensive mono graph by P. Ring and P. Schuck "The Nuclear Many-Body Problem" (Springer, Berlin, Heidelberg, New York 1980). However, in view of the many challenging problems that remain to be tackled, it is sensible to consider systems with few particles as model cases. These provide the basis for solving the sophisticated many-body problem posed by intermediate and heavy nuclei. Out of the large number of existing nuclear systems, few-particle, that is few-nucleon, systems can be singled out to form a special group. This is possi ble because a comparatively small number of degrees of freedom (or dynamic variables) is required for a complete description of such systems. In these Lectures we utilize this to study few-body systems in great detail, in particular three-and four-body systems. In contrast to published monographs on the subject, we deal not just with nucleonic degrees of freedom but consider also non-nucleonic degrees of freedom. The range of approaches and methods examined exceeds the scope of other textbooks. The Lectures are organized in such a way as to guide the uninitiated reader through the essentials of solving the dynamical equations of few-body systems directly towards practical applications. Formally oriented readers might like to supplement their reading with texts such as "The Quantum Mechanical Few Body Problem" by W. GlOckle (Springer, Berlin, Heidelberg, New York 1983).


Long-Range Casimir Forces

Long-Range Casimir Forces

Author: Frank S. Levin

Publisher: Springer Science & Business Media

Published: 2013-06-29

Total Pages: 369

ISBN-13: 1489912282

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This series, Finite Systems and Multiparticle Dynamics, is intended to provide timely reviews of current research topics, written in a style sufficiently pedagogic so as to allow a nonexpert to grasp the underlying ideas as well as understand technical details. The series is an outgrowth of our involvement with three interdis ciplinary activities, namely, those arising from the American Physical Society's Topical Group on Few Body Systems and Multiparticle Dynam ics, the series of Gordon Research Conferences first known by the title "Few Body Problems in Chemistry and Physics" and later renamed "Dynamics of Simple Systems in Chemistry and Physics," and the series of Sanibel Symposia, sponsored in part by the University of Florida. The vitality of these activities and the enthusiastic response to them by researchers in various subfields of physics and chemistry have convinced us that there is a place--even a need-for a series of timely reviews on topics of interest not only to a narrow band of experts but also to a broader, interdisciplinary readership. It is our hope that the emphasis on pedagogy will permit at least some of the books in the series to be useful in graduate-level courses. Rather than use the adjective "Few-Body" or "Simple" to modify the word "Systems" in the title, we have chosen "Finite. " It better expresses the wide range of systems with which the reviews of the series may deal.


Lectures on the Theory of Few-Body Systems

Lectures on the Theory of Few-Body Systems

Author: Vladimir B. Belyaev

Publisher: Springer

Published: 1990

Total Pages: 0

ISBN-13: 9783642872921

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Nuclear physics is undoubtedly a many-body problem. A nice introduction into the present status of this subject may be found in the comprehensive mono graph by P. Ring and P. Schuck "The Nuclear Many-Body Problem" (Springer, Berlin, Heidelberg, New York 1980). However, in view of the many challenging problems that remain to be tackled, it is sensible to consider systems with few particles as model cases. These provide the basis for solving the sophisticated many-body problem posed by intermediate and heavy nuclei. Out of the large number of existing nuclear systems, few-particle, that is few-nucleon, systems can be singled out to form a special group. This is possi ble because a comparatively small number of degrees of freedom (or dynamic variables) is required for a complete description of such systems. In these Lectures we utilize this to study few-body systems in great detail, in particular three-and four-body systems. In contrast to published monographs on the subject, we deal not just with nucleonic degrees of freedom but consider also non-nucleonic degrees of freedom. The range of approaches and methods examined exceeds the scope of other textbooks. The Lectures are organized in such a way as to guide the uninitiated reader through the essentials of solving the dynamical equations of few-body systems directly towards practical applications. Formally oriented readers might like to supplement their reading with texts such as "The Quantum Mechanical Few Body Problem" by W. GlOckle (Springer, Berlin, Heidelberg, New York 1983).


Few-body Problems In Physics - Proceedings Of The 3rd Asia-pacific Conference

Few-body Problems In Physics - Proceedings Of The 3rd Asia-pacific Conference

Author: Yupeng Yan

Publisher: World Scientific

Published: 2007-01-29

Total Pages: 425

ISBN-13: 9814476153

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The Asia-Pacific Conferences on Few-Body Problems in Physics tackle cover the various aspects of few-body systems in physics, with high caliber contributions from internationally renowned researchers. Readers will gain a clear picture of the latest developments in the field in both the theoretical and experimental sectors.The scope of these proceedings covers research in the following areas: three-body forces and few-nucleon dynamics, hadron structure and QCD; exotic hadrons and atoms; effective field theory in few-body physics; electromagnetic and weak processes in few-body systems; few-body dynamics in atoms, molecules, Bose-Einstein condensates and quantum dots; few-body approaches to unstable nuclei, nuclear astrophysics and nuclear clustering aspects; and hypernuclear physics.