Hostname: page-component-8448b6f56d-dnltx Total loading time: 0 Render date: 2024-04-24T01:24:36.028Z Has data issue: false hasContentIssue false
  • English
  • Français

The Galactic Far Ultraviolet Background

Published online by Cambridge University Press:  08 February 2017

Stuart Bowyer
Stuart Bowyer*
Affiliation:
Center for EUV Astrophysics and Astronomy Department University of California Berkeley, CA 94720 USA

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Measurements of the far ultraviolet background are reviewed. A major turning point occurred in the study of this field in the early 1980s, when evidence was first presented that this flux was primarily galactic in origin rather than extragalactic, as had been generally believed. A number of experiments have confirmed this result, and it has been established that the flux is the result of scattering of starlight by dust. However, the detailed scattering properties of dust in the far ultraviolet are uncertain; a wide range of albedos and scattering phase functions have been reported. Very recent evidence indicates that ultraviolet scattering grains are different from grains that scatter in the visible in that they have a low albedo and scatter isotropically. There is evidence that this dust is present at some level in all view directions in the galaxy. Spectral emission features have been detected recently in the diffuse background. Lines of C IV and O III] have been observed and lines of O IV/Si IV and N III have probably been observed. It has been established that the 105 K gas producing these lines is 2–3 kpc above the galactic plane. Overall mass flux rates of 5 to 25 M yr−1 for this gas are indicated, which provides strong support for the galactic fountain model for this material. Emission from molecular hydrogen has been detected in directions of high and low neutral hydrogen column density. This emission emanates from low density molecular clouds and indicates clumping of the emitting material in the clouds. Our knowledge of the sources of the far ultraviolet background has increased dramatically in the past 10 years. The results obtained have yielded surprising new insights on a variety of astrophysical topics.

Type
III. Diffuse Galactic Radiation from Dust and Gas: Observations and Models
Information
Symposium - International Astronomical Union , Volume 139: The Galactic and Extragalactic Background Radiation , 1990 , pp. 171 - 183
Copyright
Copyright © Kluwer 1990 

References

REFERENCES

Anderson, R., Brune, W., Henry, R., Feldman, P., and Fastie, W. 1979, Ap. J. (Letters), 233, L39.CrossRefGoogle Scholar
Anderson, R., Henry, R., and Fastie, W. 1982, Ap. J., 259, 573.CrossRefGoogle Scholar
Andriesse, C. D., Piersma, T. R., and Witt, A. N. 1977, Astron. Astrophys., 54, 841.Google Scholar
Bohlin, R. C., Hill, J. K., Stecher, T. P., and Witt, A. N. 1982, Ap. J., 255, 87.CrossRefGoogle Scholar
Brown, A., Jordan, C., Millar, T., Gondhalekar, P., and Miller, R. 1981, Nature, 290, 34.CrossRefGoogle Scholar
Carruthers, G. R., and Opal, C. B. 1977, Ap. J. (Letters), 212, L27.CrossRefGoogle Scholar
Davidsen, A., Bowyer, S., and Lampton, M. 1974, Nature, 247, 513.CrossRefGoogle Scholar
de Boer, K., and Kuss, C. 1988, Astron. Astrophys., 203, 149.Google Scholar
Deharveng, J., Joubert, M., and Barge, P. 1982, Astron. Astrophys., 109, 179.Google Scholar
Donas, J., Milliard, B., Laget, B., and Deharveng, J. M. 1981, Astron. Astrophys. (Letters), 97, L7.Google Scholar
Duley, W., and Williams, D. 1980, Ap. J., 242, L179.CrossRefGoogle Scholar
Edgar, R., and Chevalier, R. 1986, Ap. J. (Letters), 310, L27.CrossRefGoogle Scholar
Feldman, P., Brune, W., and Henry, R. 1981, Ap. J. (Letters), 249, L51.CrossRefGoogle Scholar
Fix, J., Craven, J., and Frank, L. 1989a, Ap. J., 345, 203.CrossRefGoogle Scholar
Fix, J., Craven, J., and Frank, L. 1989b, in Proc. IAU 139, Galactic and Extragalactic Background Radiation, ed. Bowyer, S. and Leinert, Ch., Dordrecht, Kluwer Academic Publishers.Google Scholar
Henry, R., Feldman, P., and Murthy, J. 1989, in Proc. IAU 139, Galactic and Extragalactic Background Radiation, ed. Bowyer, S. and Leinert, Ch., Dordrecht, Kluwer Academic Publishers.Google Scholar
Henry, R., Feldman, P., Weinstein, A., and Fastie, W. 1978, Ap. J., 223, 437.CrossRefGoogle Scholar
Henyey, L., and Greenstein, J. 1941, Ap. J., 93, 70.CrossRefGoogle Scholar
Hua, C., Cruvellier, P., Courtés, G., Zvereva, A., Granitsky, L., and Severny, A. 1978, in X-Ray Astronomy (COSPAR), ed. Barty, W. and Peterson, L., Pergamon, p. 551.Google Scholar
Hurwitz, M., Bowyer, S., and Martin, C. 1989, in Proc. IAU 139, Galactic and Extragalactic Background Radiation, ed. Bowyer, S. and Leinert, Ch., Dordrecht, Kluwer Academic Publishers.Google Scholar
Hurwitz, M., Bowyer, S., and Martin, C. 1990, in preparation.Google Scholar
Jakobsen, P. 1982, Astron. Astrophys., 106, 375.Google Scholar
Jakobsen, P. 1983, Ph.D. thesis, University of California.Google Scholar
Jakobsen, P., Bowyer, S., Kimble, R., Jelinsky, P., Grewing, M., and Kramer, G. 1984, Astron. Astrophys., 139, 481.Google Scholar
Jakobsen, P., and Paresce, F. 1981, Astron. Astrophys., 96, 23.Google Scholar
Joubert, M., Masnon, J., Lequeux, J., Deharveng, J., and Cruvellier, P. 1983, Astron. Astrophys., 128, 114.Google Scholar
Jura, M. 1979, Ap. J., 231, 732.CrossRefGoogle Scholar
Lequeux, J. 1989, in Proc. IAU 139, Galactic and Extragalactic Background Radiation, ed. Bowyer, S. and Leinert, Ch., Dordrecht, Kluwer Academic Publishers.Google Scholar
Lequeux, J., Hanus, M., and Perault, M. 1990, in preparation.Google Scholar
Lillie, C. F., and Witt, A. N. 1976, Ap. J., 208, 64.CrossRefGoogle Scholar
Low, F., et al. 1984, Ap. J. (Letters), 278, L19.CrossRefGoogle Scholar
Martin, C., and Bowyer, S. 1989. Ap. J., 338, 677.CrossRefGoogle Scholar
Martin, C., Hurwitz, M., and Bowyer, S. 1990a, Ap. J., submitted.Google Scholar
Martin, C., Hurwitz, M., and Bowyer, S. 1990b, Ap. J., accepted for publication.Google Scholar
Maucherat-Joubert, M., Deharveng, J. M., and Cruvellier, P. 1980, Astron. Astrophys., 88, 323.Google Scholar
Murthy, J., Henry, R., Feldman, P., and Tennyson, P. 1989, Ap. J., 336, 954.CrossRefGoogle Scholar
Onaka, T. 1989, in Proc. IAU 139, Galactic and Extragalactic Background Radiation, ed. Bowyer, S. and Leinert, Ch., Dordrecht, Kluwer Academic Publishers.Google Scholar
Onaka, T., Sawamura, M., Tanaka, W., and Watanabe, T., and Kodaira, K. 1984, Ap. J., 287, 359.CrossRefGoogle Scholar
Paresce, F. 1989, in Proc. IAU 139, Galactic and Extragalactic Background Radiation, ed. Bowyer, S. and Leinert, Ch., Dordrecht, Kluwer Academic Publishers.Google Scholar
Paresce, F., and Jakobsen, P. 1980, Nature, 288, 119.CrossRefGoogle Scholar
Paresce, F., McKee, C., and Bowyer, S. 1980, Ap. J., 240, 387.CrossRefGoogle Scholar
Paresce, F., Margon, B., Bowyer, S., and Lampton, M. 1979, Ap. J., 230, 304.CrossRefGoogle Scholar
Shapiro, P., and Field, G. 1976, Ap. J., 205, 762.CrossRefGoogle Scholar
Tanaka, W., Onaka, T., Sawamura, M., Watanabe, T., Kodaira, K., and Nishi, K. 1984, Ap. J., 280, 213.CrossRefGoogle Scholar
Weller, C. 1983, Ap. J., 268, 899.CrossRefGoogle Scholar
Witt, A. N., and Lillie, C. 1978, Ap. J, 222, 909.CrossRefGoogle Scholar
Witt, A. N., Walker, G. A. H., Bohlin, R. C., and Stecher, T. P. 1982, Ap. J., 261, 492.CrossRefGoogle Scholar
Witt, A., Stecher, T., Boroson, T., and Bohlin, R. 1989, Ap. J., 336, L21.CrossRefGoogle Scholar
Zvereva, A. M., Severny, A. B., Granitsky, L. V., Hua, C. T., Cruvellier, P., and Courtés, G. 1982, Astron. Astrophys., 116, 312.Google Scholar