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Solar Composition and its Evolution — from Core to Corona

Proceedings of an ISSI Workshop 26–30 January 1998, Bern, Switzerland

  • Conference proceedings
  • © 1998

Overview

Editors:
  1. C. Fröhlich

    1. Physikalisch-meteorologisches Observatorium, World Radiation Center, Davos, Switzerland

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  2. M. C. E. Huber

    1. Space Science Department of ESA, ESTEC, Noordwijk, The Netherlands

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  3. S. K. Solanki

    1. Institute of Astronomy, ETH, Zürich, Switzerland

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  4. R. Steiger

    1. International Space Science Institute, Bern, Switzerland

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Part of the book series: Space Sciences Series of ISSI (SSSI, volume 5)

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Table of contents (38 papers)

  1. Lower Solar Atmosphere

    1. The Solar Quiet Chromosphere-Corona Transition Region

      • L. S. Anderson-Huang
      Pages 203-213

    2. FIP Fractionation: Theory

      • Jean-Claude Hénoux
      Pages 215-226

    3. FIP Effect in the Solar Upper Atmosphere: Spectroscopic Results

      • U. Feldman
      Pages 227-240

    4. Constraints on the FIP Mechanisms from Solar Wind Abundance Data

      • J. Geiss
      Pages 241-252

    5. Element Separation in the Chromosphere

      • Hardi Peter
      Pages 253-260

    6. Temporal Evolution of Artificial Solar Granules

      • S. R. O. Ploner, S. K. Solanki, A. S. Gadun, A. Hanslmeier
      Pages 261-268

    7. The Lower Solar Atmosphere

      • Robert J. Rutten
      Pages 269-280

  2. Upper Solar Atmosphere and Solar Wind

    1. Front Matter

      Pages 281-281
      Download chapter PDF

    2. Elemental Abundances in Coronal Structures

      • John C. Raymond, Raid Suleiman, John L. Kohl, Giancarlo Noci
      Pages 283-289

    3. Structure of the Solar Wind and Compositional Variations

      • P. Bochsler
      Pages 291-302

    4. The Solar Noble Gas Record in Lunar Samples and Meteorites

      • R. Wieler
      Pages 303-314

    5. Atomic Physics for Atmospheric Composition Measurements

      • P. R. Young, H. E. Mason
      Pages 315-326

    6. Solar Energetic Particles: Sampling Coronal Abundances

      • Donald V. Reames
      Pages 327-340

    7. UVCS/SOHO: The First Two Years

      • S. R. Cranmer, J. L. Kohl, G. Noci
      Pages 341-348

    8. The Expansion of Coronal Plumes in the Fast Solar Wind

      • L. Del Zanna, R. Von Steiger, M. Velli
      Pages 349-356

    9. Fractionation of SI, NE, and MG Isotopes in the Solar Wind as Measured by SOHO/CELIAS/MTOF

      • R. Kallenbach, F. M. Ipavich, H. Kucharek, P. Bochsler, A. B. Galvin, J. Geiss et al.
      Pages 357-370

    10. Solar EUV and UV Emission Line Observations Above a Polar Coronal Hole

      • K. Wilhelm, R. Bodmer
      Pages 371-378

    11. Solar Energetic Particle Isotopic Composition

      • D. L. Williams, R. A. Leske, R. A. Mewaldt, E. C. Stone
      Pages 379-386

    12. O5+ in High Speed Solar Wind Streams: SWICS/Ulysses Results

      • Robert F. Wimmer-Schweingruber, Rudolf von Steiger, Johannes Geiss, George Gloeckler, Fred M. Ipavich, Berend Wilken
      Pages 387-396

    13. Element and Isotopic Fractionation in Closed Magnetic Structures

      • T. H. Zurbuchen, L. A. Fisk, G. Gloeckler, N. A. Schwadron
      Pages 397-406
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Keywords

About this book

The discovery of chemical elements in celestial bodies and the first estimates of the chemical composition of the solar atmosphere were early results of Astrophysics - the subdiscipline of Astronomy that was originally concerned with the general laws of radiation and with spectroscopy. Following the initial quantitative abundance studies by Henry Norris Russell and by Cecilia Payne-Gaposchkin, a tremendous amount of theoretical, observa­ tional, laboratory and computational work led to a steadily improving body of knowledge of photospheric abundances - a body of knowledge that served to guide the theory of stellar evolution. Solar abundances determined from photospheric spectra, together with the very similar abundances determined from carbonaceous chondrites (where extensive information on isotopic composition is available as well), are nowadays the reference for all cosmic composition measures. Early astrophysical studies of the solar photospheric composition made use of atmosphere models and atomic data. Consistent abundances derived from different atmospheric layers and from lines of different strength helped to confirm and estab­ lish both models and atomic data, and eventually led to the now accepted, so-called "absolute" abundance values - which, for practical reasons, however, are usually given relative to the number of hydrogen nuclei.

Editors and Affiliations

  • Physikalisch-meteorologisches Observatorium, World Radiation Center, Davos, Switzerland

    C. Fröhlich

  • Space Science Department of ESA, ESTEC, Noordwijk, The Netherlands

    M. C. E. Huber

  • Institute of Astronomy, ETH, Zürich, Switzerland

    S. K. Solanki

  • International Space Science Institute, Bern, Switzerland

    R. Steiger

Bibliographic Information

  • Book Title: Solar Composition and its Evolution — from Core to Corona

  • Book Subtitle: Proceedings of an ISSI Workshop 26–30 January 1998, Bern, Switzerland

  • Editors: C. Fröhlich, M. C. E. Huber, S. K. Solanki, R. Steiger

  • Series Title: Space Sciences Series of ISSI

  • DOI: https://doi.org/10.1007/978-94-011-4820-7

  • Publisher: Springer Dordrecht

  • eBook Packages: Springer Book Archive

  • Copyright Information: Springer Science+Business Media Dordrecht 1998

  • Hardcover ISBN: 978-0-7923-5496-3Published: 31 December 1998

  • Softcover ISBN: 978-94-010-6022-6Published: 14 October 2012

  • eBook ISBN: 978-94-011-4820-7Published: 06 December 2012

  • Series ISSN: 1385-7525

  • Edition Number: 1

  • Number of Pages: XII, 431

  • Topics: Astronomy, Observations and Techniques, Astrophysics and Astroparticles

  • Industry Sectors: Aerospace, Electronics

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