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IRAS Observations of the Galactic Center

Published online by Cambridge University Press:  23 September 2016

P. Cox
Affiliation:
Max Planck Institut for Radioastronomie, Bonn, W-Germany
R. Laureijs
Affiliation:
Laboratory for Space Research, Groningen, The Netherlands

Abstract

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IRAS observations of the Galactic Center are presented. The maps at 12, 25, 60 and 100 μm have a typical resolution of a few arcmin and cover an area 6×2 deg2 centered on SgrA. All data have been corrected for the zodiacal light contamination and for the diffuse emission associated with the galactic disk. The infrared radiation originating in the Galactic Center arises from well-defined sources which can be identified with known radio sources and from an extended emission which accounts for most of the infrared luminosity. The total infrared luminosity associated with the Galactic Center (area 3°×2°) amounts to 109L. The sources contribute 10% to this luminosity. A comparison with surveys in the radio continuum and in the near infrared is presented. Results are analyzed in terms of star formation history. In particular, it is suggested that the dominant heating source for the dust is the population of cool stars - K and M giants - comprising the galactic nucleus.

Type
The Large - Scale Interstellar Medium
Copyright
Copyright © Kluwer 1989 

References

Altenhoff, W. J., Downes, D., Pauls, T., Schraml, J. (1978) Astron. Astrophys. Suppl. 35, 23 Google Scholar
Becklin, E. E and Neugebauer, G. (1968) Astrophys. J. 151, 145 Google Scholar
Boissé, P., Gispert, R., Coron, N., Wijnbergen, J. J., Serra, G., Ryter, C., Puget, J.-L. (1981) Astron. Astrophys. 94, 265 Google Scholar
Brown, R. L. and Liszt, H. S. (1984) Ann. Rev. Astron. Astrophys. 22, 223 CrossRefGoogle Scholar
Cox, P. and Mezger, P. G. (1988) in Comets to Comology , 3d IRAS Conference, p.97 Google Scholar
Cox, P. and Laureijs, R. (1988) in preparation Google Scholar
Handa, T., Sofue, Y., Nakai, N., Hirabayashi, H., Inoue, M. (1987) Pub. Ast. Soc. J. 39, 709 Google Scholar
Haslam, C.G.T., Salter, C.J., Stoffel, H., Wilson, W.E. (1980) Astron. Astrop. Suppl 47, 709 Google Scholar
Hayakawa, S., Matsumuto, T., Murakami, H., Uyama, K., Thomas, J. A., Yamagami, T. (1981) Astron. Astrophys. 100, 116 Google Scholar
Haynes, R. F., Caswell, J. L., Simons, L. W. (1978) Austr. J. Astrophys. Suppl. 45, 1 Google Scholar
Little, S. J. and Price, S. D. (1986) Astron. J. 90, 1812 Google Scholar
Matsumoto, et al. (1982) in The Galactic Center Riegler, and Blandford, R. D. (eds)Google Scholar
Mezger, P. G. and Pauls, T. (1979) in IAU Symp. 84 , p. 357, Burton, W. B. (ed.)Google Scholar
Mezger, P. G., Chini, R., Kreysa, E., Gemünd, H. P. (1986) Astron. Astrophys. 160, 324 Google Scholar
Myers, P. C., Dame, T. M., Thaddeus, P., Cohen, R. S., Silverberg, R. F., Dwek, E., Hauser, M. G. (1986) Astrophys. J. 301, 398 CrossRefGoogle Scholar
Odenwald, S. F. and Fazio, G. G. (1984) Astrophys. J. 283, 601 Google Scholar
Pajot, F., Gispert, R., Lamarre, J. M., Peyturaux, R., Pomerantz, M. A., Puget, J. L., Serra, G., Maurel, C., Pfeiffer, R., Renault, J. C. (1988) submitted to Astron. Astrophys. Google Scholar
Pérault, M., Boulanger, F., Puget, J.-L., Falgarone, E. (1988) submitted to Astrophys. J Google Scholar
Reich, W., Fürst, E., Steffen, P., Reif, K., Haslam, C.G.T. (1984) Astron. Astrop. Suppl. 58, 197 Google Scholar
Reich, W. (1988) unpublished data Google Scholar
Sanders, R. H. and Lowinger, T. (1972) Astron. J. 77, 292 Google Scholar
Sofue, Y. (1985) Pub. Astron. Soc. Japan 37, 697 Google Scholar
Stier, M. T., Dwek, E., Silverberg, R. F., Hauser, M. G., Cheung, L., Kelsall, T., Gezari, D. Y., (1982) in The Galactic Center , Riegler, and Blandford, R. D. (eds)Google Scholar