Overview
- Editors:
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R. H. Giese
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Department of Physics and Astronomy: Extraterrestrial Physics, Ruhr-University Bochum, Bochum, Germany
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P. Lamy
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Laboratory for Space Astronomy, Marseille, France
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Table of contents (82 papers)
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- V. L. Barsukov, T. N. Nazarova
Pages 99-104
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- E. Grün, H. Fechtig, J. Kissel
Pages 105-111
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- S. F. Singer, J. E. Stanley, P. Kassel
Pages 117-120
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- H. Fechtig, F. Hörz, E. Igenbergs, E. Jessberger, H. Kuczera, G. Lange et al.
Pages 121-126
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- H. Kuczera, H. Iglseder, U. Weishaupt, E. Igenbergs
Pages 129-129
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- W. C. Carey, J. A. M. McDonnell, D. G. Dixon
Pages 131-136
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- A. Fahey, K. D. McKeegan, S. A. Sandford, R. M. Walker, B. Wopenka, E. Zinner
Pages 149-155
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- R. Wallenwein, H. Blank, E. K. Jessberger, K. Traxel
Pages 157-158
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- A. Borghesi, E. Bussoletti, L. Colangeli
Pages 159-162
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- Peng Hanchang, Zhuang Shijie, Liu Zhenkun, Yu Zhong
Pages 163-168
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- G. M. Raisbeck, F. Yiou, J. Klein, R. Middleton, D. Brownlee
Pages 169-174
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- Kazuo Yamakoshi, Koichi Honma
Pages 175-178
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About this book
Investigation of the interplanetary dust cloud is characterized by contributions from quite different methods and fields, such as research on zodiacal light, meteors, micrometeoroids, asteroids, and comets. Since the earth's environment and interplanetary space became accessible to space vehicles these interrelations are clearly evident and extremely useful. Space measurements by micrometeoroid detectors, for example, provide individual and eventually detailed information on impact events, which however are limited in number and therefore restricted in statistical significance. On the other hand, zodiacal light measurements involve scattered light from many particles and therefore provide global information about the average values of physical properties and spatial distribution of interplanetary grains. Additional knowledge stems from lunar samples and from dust collections in the atmosphere and in deep sea sediments. All these sources of complementary information must be put together into a synoptical synthesis. This also has to take into account dynamical aspects and the results of laboratory investigations concerning physical properties of small grains. Such considerable effort is not merely an academic exercise for a few specialists interested in the solar dust cloud. Since this same cloud exclusively allows direct in-situ acess to investigate extraterrestrial dust particles over a wide range of sizes and materials, it provides valuable information for realistic treatment of dust phenomena in other remote cosmic regions such as in dense molecular clouds, circumstellar dust shells, and even protostellar or protoplanetary systems.
Reviews
`...well produced and clearly printed. It ends with a list of good resolutions for future work which, if implemented successfully, will greatly advance our knowledge of this far-from-peripheral area of astronomy and link it more closely to studies of the interstallar medium, the formation of stars and, especially in the post-Giotto era, of comets.'
The Observatory, August 1986
Editors and Affiliations
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Department of Physics and Astronomy: Extraterrestrial Physics, Ruhr-University Bochum, Bochum, Germany
R. H. Giese
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Laboratory for Space Astronomy, Marseille, France
P. Lamy