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Giant Resonances in Atoms, Molecules, and Solids

  • Book
  • © 1987

Overview

Editors:
  1. J. P. Connerade

    1. Imperial College, London, England

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  2. J. M. Esteva

    1. University of Paris, Orsay, France

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  3. R. C. Karnatak

    1. University of Paris, Orsay, France

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Part of the book series: NATO Science Series B: (NSSB, volume 151)

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Table of contents (34 chapters)

  1. Front Matter

    Pages i-xi
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  2. Atomic Theory and Experiments

    1. Front Matter

      Pages 1-1
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    2. Controlled Collapse and the Profiles of ‘Giant Resonances’

      • J. P. Connerade
      Pages 3-23

    3. Mayer-Fermi Theory and the Long Sequences in the Periodic Table

      • D. C. Griffin, Robert D. Cowan, M. S. Pindzola
      Pages 25-47

    4. Relativistic Correlations in Atoms

      • K. Dietz
      Pages 49-70

    5. Atomic Many Body Theory of Giant Resonances

      • Hugh P. Kelly, Zikri Altun
      Pages 71-89

    6. Giant Resonances in Atoms and in Fluorine Cage Molecules

      • M. W. D. Mansfield
      Pages 91-114

    7. Giant Resonances in the 4d Subshell Photoabsorption Spectra of Ba, Ba+, and Ba++

      • K. Nuroh, E. Zaremba, M. J. Stott
      Pages 115-135

    8. Giant Resonances in the Transition Regions of the Periodic Table

      • Charles W. Clark, Thomas B. Lucatorto
      Pages 137-151

    9. Giant Resonances in Heavy Elements: Open-Shell Effects, Multiplet Structure and Spin - Orbit Interaction

      • Françoise Combet Farnoux
      Pages 153-170

    10. Giant Resonances as a Probe of Collective Excitations in Atoms and Solids

      • Göran Wendin
      Pages 171-211

    11. The State-Specific Theory of Atomic Structure and Aspects of the Dynamics of Photoabsorption

      • Cleanthes A. Nicolaides
      Pages 213-223

    12. Influence of Centrifugal Barrier Effects on the Autoionising Resonances

      • M. A. Baig, K. Sommer, J. P. Connerade, J. Hormes
      Pages 225-236

    13. Giant Resonance Phenomena in the Electron Impact Ionization of Heavy Atoms and Ions

      • Stephen M. Younger
      Pages 237-241

    14. The g-Thomas-Fermi Method

      • Th. Millack, G. Weymans
      Pages 243-246

    15. The Giant Resonances in the 3d Transition Elements: Single and Double Photoionization in the Region of the 3p Excitation

      • M. Schmidt, P. Zimmermann
      Pages 247-249

    16. Decay Channels of Core Excitation Resonances in Atomic Lanthanides and 3d Transition Metals

      • M. Meyer, Th. Prescher, E. v. Raven, M. Richter, E. Schmidt, B. Sonntag et al.
      Pages 251-255

  3. Molecules - Theory and Experiments

    1. Front Matter

      Pages 257-257
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    2. Inner Shell Resonances in Molecular Photoionization

      • Irène Nenner
      Pages 259-280

    3. Resonances in the K-Shell Spectra of Fluorinated Organic Molecules

      • A. P. Hitchcock, P. Fischer, R. McLaren
      Pages 281-289
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Keywords

About this book

Often, a new area of science grows at the confines between recognised subject divisions, drawing upon techniques and intellectual perspectives from a diversity of fields. Such growth can remain unnoticed at first, until a characteristic fami ly of effects, described by appropriate key words, has developed, at which point a distinct subject is born. Such is very much the case with atomic 'giant resonances'. For a start, their name itself was borrowed from the field of nuclear collective resonances. The energy range in which they occur, at the juncture of the extreme UV and the soft X-rays, remains to this day a meeting point of two different experimental techniques: the grating and the crystal spectrometer. The impetus of synchrotron spectroscopy also played a large part in developing novel methods, described by many acronyms, which are used to study 'giant resonances' today. Finally, although we have described them as 'atomic' to differentiate them from their counterparts in Nuclear Physics, their occurrence on atomic sites does not inhibit their existence in molecules and solids. In fact, 'giant resonances' provide a new unifying theme, cutting accross some of the traditional scientific boundaries. After much separate development, the spectroscopies of the atom in various environments can meet afresh around this theme of common interest. Centrifugal barrier effects and 'giant resonances' proper emerged almost simultaneously in the late 1960's from two widely separated areas of physics, namely the study of free atoms and of condensed matter.

Editors and Affiliations

  • Imperial College, London, England

    J. P. Connerade

  • University of Paris, Orsay, France

    J. M. Esteva, R. C. Karnatak

Bibliographic Information

  • Book Title: Giant Resonances in Atoms, Molecules, and Solids

  • Editors: J. P. Connerade, J. M. Esteva, R. C. Karnatak

  • Series Title: NATO Science Series B:

  • DOI: https://doi.org/10.1007/978-1-4899-2004-1

  • Publisher: Springer New York, NY

  • eBook Packages: Springer Book Archive

  • Copyright Information: Springer Science+Business Media New York 1987

  • Hardcover ISBN: 978-0-306-42564-6Published: 30 June 1987

  • Softcover ISBN: 978-1-4899-2006-5Published: 28 November 2013

  • eBook ISBN: 978-1-4899-2004-1Published: 20 December 2013

  • Series ISSN: 0258-1221

  • Edition Number: 1

  • Number of Pages: XII, 570

  • Topics: Vibration, Dynamical Systems, Control

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