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Nuclei in the Cosmos

  • Textbook
  • © 1991

Overview

Editors:
  1. Heinz Oberhummer

    1. Institut für Kernphysik, Technische Universität Wien, Wien, Austria

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Part of the book series: Graduate Texts in Contemporary Physics (GTCP)

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Table of contents (10 chapters)

  1. Front Matter

    Pages I-XII
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  2. Experimental Determination of Stellar Reaction Rates

    • C. Rolfs
    Pages 1-7

  3. Radioactive Ion Beams in Nuclear Astrophysics

    • Jean Vervier
    Pages 9-27

  4. Direct Reaction Mechanism in Astrophysically Relevant Processes

    • H. Oberhummer, G. Staudt
    Pages 29-59

  5. Nuclear Reaction Rates — from Laboratory Experiments and in the Stellar Plasma

    • Karlheinz Langanke
    Pages 61-88

  6. Abundances in Galaxies

    • B. E. J. Pagel
    Pages 89-107

  7. Nuclei in Cosmic Rays

    • Gerd Schatz
    Pages 109-125

  8. Primordial Nucleosynthesis: Beyond the Standard Model

    • Robert A. Malaney
    Pages 127-145

  9. Production of Heavy Elements in Inhomogeneous Cosmologies

    • Friedrich-Karl Thielemann, James H. Applegate, John J. Cowan, Michael Wiescher
    Pages 147-177

  10. The s-Process: Branchings and Chronometers

    • F. Räppeler
    Pages 179-198

  11. Beta Decay Far from Stability and Double Beta Decay, and Consequences for Astrophysics

    • H. V. Klapdor-Kleingrothaus
    Pages 199-232

  12. Back Matter

    Pages 233-236
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Keywords

About this book

Nuclear astrophysics as it stands today is a fascinating science. Even though, compared to other scientific fields, it is a young discipline which has developed only in this century, it has answered many questions concerning the under­ standing of our cosmos. One of these great achievements was the concept of nucleosynthesis, the creation of the elements in the early universe in interstellar matter and in stars. Nuclear astrophysics has continued, to solve many riddles of the evolution of the myriads of stars in our cosmos. This review volume attempts to provide an overview of the current status of nuclear astrophysics. Special emphasis is given to the interdisciplinary nature of the field: astronomy, nuclear physics, astrophysics and particle physics are equally involved. One basic effort of nuclear astrophysics is the collection of ob­ servational facts with astronomical methods. Laboratory studies of the nuclear processes involved in various astrophysical scenarios have provided fundamen­ tal information serving both as input for and test of astrophysical models. The theoretical understanding of nuclear reaction mechanisms is necessary, for example, to extrapolate the experimentally determined reaction rates to the thermonuclear energy range, which is relevant for the nuclear processes in our cosmos. Astrophysical models and calculations allow us to simulate how nuclear processes contribute to driving the evolution of stars, interstellar matter and the whole universe. Finally, elementary particle physics also plays an important role in the field of nuclear astrophysics, for instance through weak interaction processes involving neutrinos.

Editors and Affiliations

  • Institut für Kernphysik, Technische Universität Wien, Wien, Austria

    Heinz Oberhummer

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