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Observational Problems in Extragalactic Astronomy

Published online by Cambridge University Press:  30 March 2016

Halton Arp
Halton Arp*
Affiliation:
Max-Planck-Institut fūr Astrophysik 8046 Garching bei Mūnchen, Germany

Abstract

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A large number of observations have accumulated which represent baffling mysteries from the standpoint of current astronomy. A sample of the most crucial of these cases is reviewed and updated. Evidence has slowly built up to the point where often each individual object is a formidable challenge to conventional theory. But, most importantly, it is now possible to appreciate the common pattern which mutually reinforces all the separate results.

These empirical discordances point directly at known weaknesses in the Big Bane theory of the origin of the universe. New data is used to introduce a proposal which accounts for both the data which gave rise to the Big Bang interpretation and which also satisfies the discordant results which have accumulated over the last quarter of a century. Though perhaps only a primitive beginning, the new interpretation demonstrates that observations need not be discarded because they disagree with current theory. The major conclusion from the cases discussed here is that the present observational paradoxes represent spectacular opportunities to make new and fundamental discoveries about the universe.

Type
Invited Discourses
Information
Highlights of Astronomy , Volume 9: Highlights of Astronomy. As presented at the XXIst General Assembly of the IAU, 1991 , 1992 , pp. 43 - 62
Copyright
Copyright © Kluwer 1992

References

1. Arp, H., Burbidge, G., Hoyle, F., Narlikar, J.V. and Wickramasinghe, N.C.The Extragalactic Universe an Alternative View’, Nature 346, 807.Google Scholar
2. van den Bergh, S.Cosmology — In Search of a New Paradigm’, J. Roy. Astr. Soc. Can. 84, 275.Google Scholar
3. Arp, H.Galaxy Creation in a Non-Big Bang Universe’, Third Philosophy and Physics Workshop of the Forschungsstätte der Evaneelischen Studentengemeinschaft.Google Scholar
4. Baldwin, J.A., Carswell, R.F., Wampler, E.J., Smith, H.E., Burbidge, E.M., Boksenberg, A. (1980) ‘The Nebulosity Associated With 3C 120’, Ap.J. 236, 388.Google Scholar
5. Arp, H. (1987) “3C 120 and the Surrounding Region of Sky’, J. Astrophys. Astr. (India) 8, 231.Google Scholar
6. Arp, H. (1986) ‘Relation of the Jet in M87 to Nearby Galaxies in the Virgo Cluster’, J. Astrophys. Astr. (India) 7, 71.Google Scholar
7. Arp, H. and Burbidge, G.The Peculiar Hydrogen Cloud in the Virgo Cluster and 3C 273’, Ap.J. 359, L1.Google Scholar
8. Arp, H.3C273 in Perspective’, Astronomy Now 4, 43.Google Scholar
9. Arp, H.Quasars in the Central Region of the Virgo Cluster’, J. Astrophys. Astr. (India) 7, 71.Google Scholar
10. Arp, H. (1988) ‘Intergalactic Magnetic Field and the Distance of Quasars from Faraday Rotation’, Physics Letters A 129, 135.CrossRefGoogle Scholar
11. Sulentic, J.W. (1988) ‘An Apparant Correlation Between the Brightest Galaxies and Quasars’, Physics Letters A 131, 227.Google Scholar
12. Arp, H. (1988) ‘What is the Mean Redshift of the Virgo Cluster?’, Astron. Astrophys. 202, 70.Google Scholar
13. Burbidge, G., Hewitt, A., Narlikar, J.V. and Das Gupta, P.Associations Between Quasi-Stellar Objects and Galaxies’, Ap.J. 74, 675.Google Scholar
14. Arp, H. (1987) ‘Quasars, Redshifts and Controversies’, Interstellar Media, Berkeley.Google Scholar
15. Arp, H.X-Ray Connection Prom the Quasar Markarian 205 to the Galaxy NGC 4319’, Physics Letters A 146, 172.Google Scholar
16. Arp, H.Quasar Numbers as a Function of Apparent Magnitude: Gravitational Lensing of Quasars Associated with Nearby Galaxies?’, Astron. Astrophys. 229, 93.Google Scholar
17. Burbidge, E.M., Burbidge, G.R., Solomon, P.M. and Strittmatter, P.A. (1971) ‘Apparent Associations Between Bright Galaxies and Quasi-Stellar Objects’, Ap.J. 170, 233 Google Scholar
18. Arp, H. (1989) ‘The HI Bridge Between NGC 3067 and 3C 232’ ESO Workshop on Extranuclear Activity in Galaxies, ESO Conf. Proc. No. 32, p.89 Google Scholar
19. Stocke, J.T., Case, J., Donahue, M., Skull, J.M. and Snow, T.F. (1991) ‘New Observations on the Gas Cloud Associated with the Quasar-Galaxy Pair 3C 232/ NGC 3067’, Ap.J. 374, 73.Google Scholar
20. Arp, H. (1976) Anomalous Redshifts in Galaxies and Quasars, I.A.U. Colloque No. 37, ‘Decalage Vers Le Rouge et Expansion De L’UniverseEdition Du CNRS, PARIS, p.377.Google Scholar
21. Arp, H. (1982) ‘Further Examples of Companion Galaxies with Discordant Redshifts and their Spectral Peculiarities’, Ap.J. 263, 54.Google Scholar
22. Arp, H. (1991) ‘How Non-Velocity Redshifts in Galaxies Depend on Epoch of Creation’, APEIRON No. 9–10, 18.Google Scholar
23. Hutchings, J.B. (1980) ‘Stellar Winds from Hot Stars in the Magellanic Cloud’, Ap.J. 235, 413.Google Scholar
24. Arp, H. (1991) ‘Systematic Redshifts in OB Stars’, Astron. Astrophys. (submitted).Google Scholar
25. Sandage, A. and Tamman, G.A.The Cosmic Value of H0 Freed from All Local Velocity Anomalies’, ESO Preprint No. 722.Google Scholar
26. Hoyle, F. and Narlikar, J. (1974) ‘Action at a Distance in Physics and Cosmology’ (San Francisco: Freeman)Google Scholar
27. Narlikar, J. and Das, P.K. (1980) ‘Anomalous Redshifts of Quasi-Stellar Objects’, Ap.J. 240, 401.Google Scholar
28. Narlikar, J. (1977) ‘Two Astrophysical Applications of Conformal Gravity’, Ann. of Physics 107, 325.Google Scholar
29. Napier, W.M. (1991) ‘Crystal Spheres in Velocity Spaces?’, APEIRON No. 9, 8.Google Scholar
30. Arp, H.Galaxy Alignments’, J. Astrophys. Astr. (India) 11, 411.Google Scholar
31. Arp, H. (1991) ‘The Probable Extragalactic Nature of Some Low Surface Brightness Clouds at High Galactic Latitude’, Astrophys. and Space Sci., in press.Google Scholar