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An Infrared Search in our Solar System as Part of a More Flexible Search Strategy

Published online by Cambridge University Press:  04 August 2017

Michael D. Papagiannis
Michael D. Papagiannis*
Affiliation:
Department of Astronomy, Boston University, Boston, Massachusetts 02215, USA

Abstract

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One of several explanations for the Fermi Paradox is that the whole Galaxy, including our Solar System, has already been colonized, but that for a variety of reasons the extraterrestrials have chosen not to reveal their presence. In a universal search for extraterrestrial intelligence, it seems prudent to check-out also our own backyard. IRAS has obtained a large volume of infrared data at 12, 25, 60 and 100 microns from which a special working group at JPL, of which the author is a member, is trying to establish a special catalogue of Solar System objects, the vast majority of which are asteroids. A careful search through this data bank for objects with peculiar infrared spectra would be the first step in the search for major artificial objects, such as space stations or materials processing plants, in our Solar System. The asteroid belt is an ideal source of raw materials for space colonies, which could have easily escaped detection lost among the many thousands of natural asteroids. Checking them out for excesses in the infrared is an ideal screening test for artificial objects in our Solar System.

Type
Section VII. The Fermi Paradox and Alternative Search Strategies
Information
Symposium - International Astronomical Union , Volume 112: The Search for Extraterrestrial Life: Recent Developments , 1985 , pp. 505 - 511
Copyright
Copyright © Reidel 1985 

References

Ball, J.A., 1973, The zoo hypothesis, Icarus 19, 347, 1973.CrossRefGoogle Scholar
Diels, H., 1922, Die Fragmente der Vorsocratiker, p. 141, Weidmannsche Buchhandlung, Berlin, Germany.Google Scholar
Drake, F.D., 1980, N is neither very small nor very large, In Strategies for the Search for Life in the Universe, Ed. by Papagiannis, M. D., D. Reidel Publ. Co., Holland.Google Scholar
Hart, M.H. and Zuckerman, B. (Editors), 1982 Extraterrestrials: Where are They?, Pergamon Press.Google Scholar
Jones, E.M. 1976, Colonization of the Galaxy, Icarus, 421.Google Scholar
Jones, E.M. 1985, “Where is Everybody?” An account of Fermi's question. LA-10311-MS, Los Alamos Nat. Lab. Los Alamos NM.Google Scholar
Neugebauer, G. et al., 1984, The infrared astronomical satellite (IRAS) mission, Ap. J., 278, L1.CrossRefGoogle Scholar
Newman, W.T. and Sagan, C., 1981, Galactic civilizations: Population dynamics and interstellar diffusion, Icarus, 46, 293.CrossRefGoogle Scholar
Papagiannis, M.D., Could we be the only advanced civilization in our Galaxy? in Origin of Life, Ed. by Noda, H., Center Acad. Publ., Tokyo, Japan.Google Scholar
Papagiannis, M.D., 1978, Are we all alone, or could they be in the asteroid belt?, Q.J.R. Astr. Soc, 19, 277.Google Scholar
Papagiannis, M.D., (Editor), 1980, Strategies for the Search for life in the Universe, D. Reidel Publ. Co., Holland.Google Scholar
Papagiannis, M.D., 1981, Liquid water on a planet over cosmic periods, in Origin of life, Ed. by Wolman, Y., D. Reidel Publ. Co., Holland.Google Scholar
Papagiannis, M.D., 1983, The Importance of exploring the asteroid belt, Acta Astronautica, 10, 709.Google Scholar
Papagiannis, M.D., 1984, Bioastronomy: The search for extraterrestrial life, Sky and Tel., 67, 508.Google Scholar
Tedesco, E.F., 1984, IRAS Asteroid Workshop Number 3: Report and Recommendations, JPL D-1617, Jet Propulsion Laboratory, Pasadena, CA.Google Scholar
Tipler, F.J., 1980, Extraterrestrial intelligent beings do not exist, Q.J.R. Astr. Soc, 21, 267.Google Scholar
Valdes, F. and Freitas, R. A. Jr., 1983, A search for objects near the Earth-Moon Lagrangian points, Icarus, 53, 453.CrossRefGoogle Scholar