Astronomy and Astrophysics – Astrophysics
Scientific paper
May 1996
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996a%26a...309..335h&link_type=abstract
Astronomy and Astrophysics, v.309, p.335-344
Astronomy and Astrophysics
Astrophysics
17
Quasars: General, Galaxies: General, Distances And Redshifts
Scientific paper
In this paper we show that strong statistical evidence has been available for many years showing that QSO redshifts in at least some cases are not caused by the expansion of the Universe. In a complicated world the number of unexpected associations that can be subjected to statistical test is very large and somewhere among the entire ensemble of such associations a few may seem of significance, if taken separately, which are only chance effects, however, occasioned by the profusion of cases in the ensemble. False associations of this kind show up readily as new data become available, since the original chance effects are unlikely to be repeated in the new data. An example was an algebraic formula for the sunspot number which caused a considerable stir early in the present century, the formula agreeing with sunspot numbers over many years with seemingly uncanny precision, only for the agreement to disappear as soon as new sunspot numbers came along. This well-known statistical trap cannot be claimed against the proposition that QSOs of high redshifts are sometimes physically associated with nearby galaxies. This proposition has now been exposed to statistical test for almost thirty years, and it survives in new data just as well as in old data. Additionally, a number of cases have come along with the years where actual physical connections have been detected between QSOs and nearby galaxies. Six of these cases are discussed in detail in the present paper. It is consistent with standard physics for redshifts to arise from doppler motions and also in radiation emitted by matter in a gravitational field, as well as from the cosmological expansion of the Universe. These other possibilities have been examined repeatedly over the years but have never been found to give convincing explanations for the QSO-nearby galaxy associations described above. One is therefore left with the non-standard possibility that different samples of matter can have different mass scales. No theory of how the QSO mass scale could be different from the usual galaxy mass scale has hitherto been found acceptable, with the consequence that most astrophysicists and cosmologists have felt justified in ignoring the evidence for anomalous redshifts, the thought being that what is known to be impossible remains impossible no matter how strong the evidence for it may be. The main purpose of the present paper is to question this mode of thinking. We show how, consistent with the quasi steady-state cosmological theory developed recently in a number of papers, it is possible for samples of material of different ages to have different mass scales.
Burbidge Geoffrey
Hoyle Fiona
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