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Advances in Nuclear Physics

Volume 24

  • Book
  • © 2002

Overview

Editors:
  1. J. W. Negele

    1. Center for Theoretical Physics, Massachusetts institute of Technology, Cambridge

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  2. Erich Vogt

    1. Department of Physics, University of British Columbia, Vancouver, Canada

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    You can also search for this editor in PubMed   Google Scholar

Part of the book series: Advances in Nuclear Physics (ANP, volume 24)

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Table of contents (3 chapters)

  1. Front Matter

    Pages i-xv
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  2. Nucleon Charge-Exchange Reactions at Intermediate Energy

    • W. P. Alford, B. M. Spicer
    Pages 1-82

  3. Mesonic Contributions to the Spin and Flavor Structure of the Nucleon

    • J. Speth, A. W. Thomas
    Pages 83-149

  4. Muon Catalyzed Fusion: Interplay Between Nuclear and Atomic Physics

    • K. Nagamine, M. Kamimura
    Pages 150-205

  5. Back Matter

    Pages 207-210
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Keywords

About this book

The three articles of the present volume pertain to very different subjects, all ofconsiderable current interest. The first reviews the fascinating history ofthe search for nucleon substructure in the nucleus using the strength ofGamow– Teller excitations. The second deals with deep inelastic lepton scattering as a probe ofthe non-perturbative structure of the nucleon. The third describes the present state ofaffairs for muon catalyzed fusion, an application of nuclear physics which many new experiments have helped to elucidate. This volume certainly illustrates the broad range ofphysics within our field. The article on Nucleon Charge-Exchange Reactions at Intermediate Energy, by Parker Alford and Brian Spicer, reviews recent data which has clarified one of the greatest puzzles of nuclear physics during the past two decades, namely, the “missing strength” in Gamow–Teller (GT) transitions. The nucleon-nucleon interaction contains a GT component which has a low-lying giant resonance. The integrated GT strength is subject to a GT sum rule. Early experiments with (n,p) charge exchange reactions found only about half of the strength, required by the sum rule, in the vicinity of the giant resonance. At the time, new theoretical ideas suggested that the GT strength was especially sensitive to renormalization from effects pertaining to nucleon substructure, particularly the delta excitation of the nucleon in the nucleus.

Reviews

`I agree with the editors in especially recommending Nagamine and Kamimura's article to any nuclear physicist. That article seemed the most elementary, the most suitable ... I definitely recommend this book to anyone interested in nuclear research.' Physics in Canada, July/August 1999

Editors and Affiliations

  • Center for Theoretical Physics, Massachusetts institute of Technology, Cambridge

    J. W. Negele

  • Department of Physics, University of British Columbia, Vancouver, Canada

    Erich Vogt

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