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Evolution of the EUV Background from Quasar Absorption Line Studies

Published online by Cambridge University Press:  25 May 2016

Jill Bechtold*
Affiliation:
Steward Observatory, University of Arizona, Tucson, AZ 85721

Abstract

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The integrated extreme ultraviolet (EUV) radiation from quasars and other high redshift sources provides an ambient ionizing radiation field which may photoionize the gas seen as quasar absorption lines. In particular, the observed evolution of the Lyα forest clouds probably results in part from the evolution of the EUV metagalactic field. Estimates of the EUV field as a function of redshift can be made from measuring the “proximity effect” in quasar spectra; uncertainties in these estimates may be large. Given the uncertainties, the estimated EUV field at z≈3 derived from the proximity effect is in reasonable agreement with the expected contribution from luminous quasars.

Type
Part I: Invited Reviews
Copyright
Copyright © Kluwer 1996 

References

Bahcall, J.N. et al. (1993), ApJS, 87, 1.Google Scholar
Bajtlik, S., Duncan, R. C. and Ostriker, J. P. (1988), ApJ, 327, 570.Google Scholar
Bechtold, J. (1993), in the Third Teton School on the Evolution of Galaxies and Their Environment, ed. Shull, J. M. and Thronson, H. A., (Dordrecht:Kluwer), p. 559.Google Scholar
Bechtold, J. (1994), ApJS, 91, 1.CrossRefGoogle Scholar
Bechtold, J. (1995), in proceedings of ESO Workshop on QSO Absorption Lines, Garching, ed. Meylan, G., in preparation.Google Scholar
Bechtold, J., Weymann, R. J., Lin, A. and Malkan, M. (1987), ApJ, 315, 180.CrossRefGoogle Scholar
Bechtold, J., Kuhn, O. and Rieke, M. (1995), in preparation.Google Scholar
Bechtold, J., Dobrzycki, A., Scott, J., Foltz, C. and Lesser, M. (1995), in preparation.Google Scholar
Bochkarev, N. G. and Sunyaev, R. A. (1977), Astron.Zh., 54, 957; translated in Soviet Astronomy, 21, 542.Google Scholar
Bowyer, S. (1991), ARAA, 29, 59.Google Scholar
Carswell, R. F., Webb, J. K., Baldwin, J. A. and Atwood, B. (1987), ApJ, 319, 709.CrossRefGoogle Scholar
Charlton, J. C., Salpeter, E. E., and Hogan, C. J. (1993), ApJ, 402, 493.CrossRefGoogle Scholar
Code, A. D. and Welch, G. A. (1982), 256, 1.Google Scholar
Corbelli, E. and Schneider, S. E. (1990), ApJ, 356, 14.Google Scholar
Cowsik, R. (1977), Phys. Rev. Lett., 39, 784.CrossRefGoogle Scholar
De Rejula, A. and Glashow, S. (1980), Phys. Rev. Lett., 45, 942.CrossRefGoogle Scholar
Donahue, M., Aldering, G., and Stocke, J. (1994), paper 60.05 presented at May 1994 AAS meeting, Minneapolis.Google Scholar
Dove, J. B. and Shull, J. M. (1994), ApJ, 423, 196.Google Scholar
Espey, B. R. (1993), ApJ, 411, L59.Google Scholar
Fall, S. M. and Pei, Y. C. (1993), ApJ, 402, 479.Google Scholar
Giovanelli, R. and Haynes, M. P. (1989), ApJ, 346, L5.Google Scholar
Henry, R. C. (1991), ARAA, 29, 89.Google Scholar
Ikeuchi, S. and Turner, E. L. (1991), ApJ, 381, L1.Google Scholar
Kimble, R., Bowyer, S. and Jakobsen, P. (1981), Phys. Rev. Lett., 46, 80.Google Scholar
Kuhr, H., McAlary, C. W., Rudy, R. J., Strittmatter, P. A. and Rieke, G. H. (1984), ApJ, 275 L33.Google Scholar
Kulkarni, V. P. and Fall, S. M. (1993), ApJ, 413, L63.CrossRefGoogle Scholar
Madau, P. (1992), ApJ, 389, L1.Google Scholar
Madau, P. (1995), in proceedings of the ESO Workshop on QSO Absorption Lines, Garching, ed. Meylan, G., in preparation.Google Scholar
Maloney, P. (1992), ApJ, 398, L89.Google Scholar
Martin, C., Hurwitz, M. and Bowyer, S. (1991), ApJ, 379, 549.Google Scholar
Melott, A. L., and Sciama, D. W. (1981), Phys. Rev. Lett., 46, 1369.Google Scholar
Miralde-Escude, J. and Ostriker, J. P. (1990), ApJ, 350, 1.Google Scholar
Miralde-Escude, J. and Ostriker, J. P. (1992), ApJ, 392, 15.Google Scholar
Murdoch, H. S., Hunstead, R. W., Pettini, M. and Blades, J. C. (1986), ApJ, 309, 19.Google Scholar
Ostriker, J. P. and Heisler, J. (1984), ApJ, 278, 1.Google Scholar
Paresce, F. (1990), in The Galactic and Extragalactic Background Radiation, ed. Bowyer, S., and Leinert, C., p. 307.Google Scholar
Rees, M. J. and Setti, G. (1979), A&A, 8, 410.Google Scholar
Reimers, D. (1995), in proceedings of the ESO Workshop on QSO Absorption Lines, Garching, ed. Meylan, G., in preparation.Google Scholar
Reynolds, R. J. (1987), ApJ, 323, 553.Google Scholar
Reynolds, R. J., Magee, K., Roesler, F. L., Scherb, F. and Harlander, J. (1986), ApJ, 309, L9.CrossRefGoogle Scholar
Sargent, W. L. W., Young, P. J., Boksenberge, A. and Tytler, D. (1980), ApJS, 42, 41.Google Scholar
Savage, B. (1995), in proceedings of the ESO Workshop on QSO Absorption Lines, Garching, ed. Meylan, G., in preparation.Google Scholar
Sciama, D. (1995), in proceedings of the ESO Workshop on QSO Absorption Lines, Garching, ed., Meylan, G., in preparation.Google Scholar
Silk, J. and Sunyaev, R. A. (1976), Nature, 260, 508.Google Scholar
Songaila, A., Bryant, W. and Cowie, L. L. (1989), ApJ, 345, L71.Google Scholar
Stocke, J. T., Case, J., Donahue, M., Shull, J. M. and Snow, T. P. (1991), ApJ, 374, 72.Google Scholar
Terasawa, N. (1992), ApJ, 392, L15.Google Scholar
Tinsley, B. M. (1972), ApJ, 178, 319.Google Scholar
van Gorkom, J. H. (1993), in The Third Teton Conference on The Environment and Evolution of Galaxies, ed. Shull, J. M. and Thronson, H. A. (Dordrecht:Kluwer), p. 343.Google Scholar
van Gorkom, J. H., Cornwell, T., van Albada, T. S. and Sancisi, R. (1994), in preparation.Google Scholar
Vogel, S. N., Weymann, R., Rauch, M. and Hamilton, T. (1994), preprint.Google Scholar
Weymann, R. J., Carswell, R. F. and Smith, M. G. (1981), ARAA, 19, 41.Google Scholar
Williger, G. M., Baldwin, J. A., Carswell, R. F., Cooke, A. J., Hazard, C., Irwin, M. J., McMahon, R. G., Storrie-Lombardi, L. J. (1994), ApJ, 428, 574.Google Scholar
Wright, E. L. (1986), ApJ, 311, 156.Google Scholar