This second volume of Computational Nuclear Physics deals primarily with nuclear reactions. Each chapter provides discussions of both of the relevant physics as well as the numerical methods, codifying the expertise of many of the leading researchers in computation nuclear physics. All codes discussed in the book are included on a diskette.
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Computation is essential to our modern understanding of nuclear systems. Although simple analytical models might guide our intuition, the complex ity of the nuclear many-body problem and the ever-increasing precision of experimental results require large-scale numerical studies for a quantitative understanding. Despite their importance, many nuclear physics computations remain something of a black art. A practicing nuclear physicist might be familiar with one or another type of computation, but there is no way to systemati cally acquire broad experience. Although computational methods and results are often presented in the literature, it is often difficult to obtain the working codes. More often than not, particular numerical expertise resides in one or a few individuals, who must be contacted informally to generate results; this option becomes unavailable when these individuals leave the field. And while the teaching of modern nuclear physics can benefit enormously from realistic computer simulations, there has been no source for much of the important material. The present volume, the second of two, is an experiment aimed at address ing some of these problems. We have asked recognized experts in various aspects of computational nuclear physics to codify their expertise in indi vidual chapters. Each chapter takes the form of a brief description of the relevant physics (with appropriate references to the literature), followed by a discussion of the numerical methods used and their embodiment in a FOR TRAN code. The chapters also contain sample input and test runs, as well as suggestions for further exploration.
This second volume of Computational Nuclear Physics deals primarily with nuclear reactions; it thus complements the first volume, which concentrates on nuclear structure. Providing discussions of both of the relevant physics as well as the numerical methods, the chapters codify the expertise of many of the leading researchers in computation nuclear physics. The numerical methods discussed are embodied in a fortran code; sample input and test runs are also provided. All codes discussed in the book are included on a diskette; they conform to the fortran 77 standard. The subjects covered include: one-boson exchange scattering; the G-matrix in finite nuclei; the nuclear-matter effective interaction; nuclear collisions; the distorted-wave Born approximation; statistical models with angular-momentum coupling, time-dependent Hartee-Fock approximation for nuclear slabs; the Vlasov-Uehling- Uhlenbeck model; the friction model for deep-inelastic and fusion reactions; the quark model and nucleon-nucleon interactions; hadron-hadron and hadron-nucleus scattering.
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Taschenbuch. Zustand: Neu. Druck auf Anfrage Neuware - Printed after ordering - Computation is essential to our modern understanding of nuclear systems. Although simple analytical models might guide our intuition, the complex ity of the nuclear many-body problem and the ever-increasing precision of experimental results require large-scale numerical studies for a quantitative understanding. Despite their importance, many nuclear physics computations remain something of a black art. A practicing nuclear physicist might be familiar with one or another type of computation, but there is no way to systemati cally acquire broad experience. Although computational methods and results are often presented in the literature, it is often difficult to obtain the working codes. More often than not, particular numerical expertise resides in one or a few individuals, who must be contacted informally to generate results; this option becomes unavailable when these individuals leave the field. And while the teaching of modern nuclear physics can benefit enormously from realistic computer simulations, there has been no source for much of the important material. The present volume, the second of two, is an experiment aimed at address ing some of these problems. We have asked recognized experts in various aspects of computational nuclear physics to codify their expertise in indi vidual chapters. Each chapter takes the form of a brief description of the relevant physics (with appropriate references to the literature), followed by a discussion of the numerical methods used and their embodiment in a FOR TRAN code. The chapters also contain sample input and test runs, as well as suggestions for further exploration. Artikel-Nr. 9781461393375
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