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'''Redshift quantization''', also referred to as '''redshift periodicity''',<ref>
{{cite journal |last=Tifft |first=W. G. |date=2006 |title=Redshift periodicities, The Galaxy-Quasar Connection |journal=[[Astrophysics and Space Science]] |volume=285 |issue=2 |pages=429–449 |bibcode=2003Ap&SS.285..429T |doi=10.1023/A:1025457030279|s2cid=120143840 }}</ref> '''redshift discretization''',<ref name=Karlsson>{{cite journal |last=Karlsson |first=K. G. |date=1970 |title=Possible Discretization of Quasar Redshifts |journal=[[Astronomy and Astrophysics]] |volume=13 |issue= |pages=333 |bibcode=1971A&A....13..333K |doi=}}</ref> '''preferred redshifts'''<ref>{{cite journal |last1=Arp |first1=H. |last2=Russel |first2=D. |date=2001 |title=A Possible Relationship between Quasars and Clusters of Galaxies |journal=[[Astrophysical Journal]] |volume=549 |issue=2 |pages=802 |bibcode=2001ApJ...549..802A |doi=10.1086/319438|quote=The clusters and the galaxies in them tend to be strong X-ray and radio emitters, and their redshifts occur at preferred redshift values.}}</ref> and '''redshift-magnitude bands''',<ref>{{cite journal |last=Tifft |first=W. G. |date=1973 |title=Properties of the redshift-magnitude bands in the Coma cluster |journal=[[Astrophysical Journal]] |volume=179 |issue= |pages=29 |bibcode=1973ApJ...179...29T |doi=10.1086/151844}}</ref><ref>{{cite journal |last1=Nanni |first1=D. |last2=Pittella |first2=G. |last3=Trevese |first3=D. |last4=Vignato |first4=A. |date=1981 |title=An analysis of the redshift-magnitude band phenomenon in the Coma Cluster |journal=[[Astronomy and Astrophysics]] |volume=95 |issue=1 |pages=188 |bibcode=1981A&A....95..188N |doi=}}</ref> is the [[hypothesis]] that the [[redshift]]s of cosmologically distant objects (in particular [[galaxies]] and [[quasars]]) tend to cluster around multiples of some particular value. In [[inflation (cosmology)|standard inflationary cosmological models]], the redshift of cosmological bodies is ascribed to the expansion of the universe, with greater redshift indicating greater [[cosmic distance ladder|cosmic distance]] from the Earth (see [[Hubble's Law]]). This is referred to as [[cosmological redshift]]. Ruling out errors in measurement or analysis, quantized redshift of cosmological objects would either indicate that they are physically arranged in a quantized pattern around the Earth, or that there is an unknown mechanism for redshift unrelated to cosmic expansion, referred to as "intrinsic redshift" or "non-cosmological redshift".
In 1973, astronomer [[William G. Tifft]] was the first to report evidence of this pattern. Subsequent discourse focused upon whether [[redshift survey]]s of [[quasars]] (QSOs) have produced evidence of quantization in excess of what is expected due to [[selection effect]] or [[galaxy cluster|galactic clustering]].<ref>{{cite journal |last1=Trimble |first1=V. |last2=Aschwanden |first2=M. J. |last3=Hansen |first3=C. J. |date=2007 |title=Astrophysics in 2006 |journal=[[Space Science Reviews]] |volume=132 |issue=1 |pages=1–182 |doi=10.1007/s11214-007-9224-0 |arxiv=0705.1730|bibcode = 2007SSRv..132....1T |s2cid=119570960 }}</ref><ref name="adsabs.harvard.edu">{{cite journal |last1= Bell |first1=M. B. |last2=McDiarmid |first2=D. |date=2006 |title=Six Peaks Visible in the Redshift Distribution of 46,400 SDSS Quasars Agree with the Preferred Redshifts Predicted by the Decreasing Intrinsic Redshift Model|journal=[[Astrophysical Journal]] |volume=648 |issue=1 |pages=140–147 |bibcode=2006ApJ...648..140B |doi=10.1086/503792|arxiv = astro-ph/0603169 |s2cid=17057129 }}</ref><ref>{{cite journal |last1=Godłowski |first1=W. |last2=Bajan |first2=K. |last3=Flin |first3=P.|date=2006 |title=Weak redshift discretisation in the Local Group of galaxies? |journal=[[Astronomische Nachrichten]] |volume=387 |issue=1 |pages=103 |bibcode=2006AN....327..103G |doi=10.1002/asna.200510477|arxiv = astro-ph/0511260 |s2cid=119388085 }}</ref><ref name=Tang>{{cite journal |last1=Tang |first1=S. M. |last2=Zhang |first2=S. N. |date=2005 |title=Critical Examinations of QSO Redshift Periodicities and Associations with Galaxies in Sloan Digital Sky Survey Data |journal=[[Astrophysical Journal]]|volume=633 |issue=1 |pages=41–51 |bibcode=2005ApJ...633...41T |doi=10.1086/432754 |arxiv=astro-ph/0506366|s2cid=119052857 }}</ref> The idea has been on the fringes of astronomy since the mid-1990s and is now discounted by the vast majority of astronomers, but a few scientists who espouse [[nonstandard cosmology|nonstandard cosmological models]], including those who reject the [[Big Bang]] theory, have referred to evidence of redshift quantization as reason to reject conventional accounts of the origin and evolution of the [[universe]].<ref>For examples, see references by nonstandard cosmology proponents
*{{cite journal | last1 = Ratcliffe| first1 = Hilton| date=2009| title = A Review of Anomalous Redshift Data| journal = 2nd Crisis in Cosmology Conference, CCC-2 ASP Conference Series | volume = 413| pages = 109| bibcode = 2009ASPC..413..109R}}
*{{cite journal|bibcode=1973ApJ...186....1B|doi = 10.1086/152474 | title=A Quantitative Alternative to the Cosmological Hypothesis for Quasars | journal=The Astrophysical Journal|date=1973|volume=186|pages=1–21|first=Moley B.|last=Bell}}
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*{{cite journal|bibcode=1986ApJ...301..544L|doi = 10.1086/163922 | title=Is the universe really expanding? | journal=The Astrophysical Journal|date=1986|volume=301|pages=544|first=P. A.|last=Laviolette}}
*{{cite journal|bibcode=1980BAAS...12..852B| title=The Redshift Periodicity of QSO's and the Origin of Cosmic Radiation | journal=Bulletin of the American Astronomical Society|date=1980|volume=12|pages=852|first1=J. M.|last1=Barnothy|first2=M. F.|last2=Barnothy}}</ref><ref>{{cite book |last1=Arp |first1=H. |date=1998 |chapter=Quantization of Redshifts |chapter-url=http://redshift.vif.com/BookBlurbs/SeeingRedBlurb.htm |title=Seeing Red |isbn=978-0-9683689-0-9 |url-status=dead |archiveurl=https://web.archive.org/web/20061020112037/http://redshift.vif.com/BookBlurbs/SeeingRedBlurb.htm |archivedate=2006-10-20 }}</ref><ref>{{cite journal |last1=Arp |first1=H. |date=1987 |title=Additional members of the Local Group of galaxies and quantized redshifts within the two nearest groups |journal=Journal of Astrophysics and Astronomy |volume=8 |issue= 3|pages=241–255 |bibcode=1987JApA....8..241A
|doi=10.1007/BF02715046|s2cid=119819755 }}</ref>
==Original investigation by William G. Tifft==
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Tifft, now Professor Emeritus at the [[University of Arizona]], suggested that this observation conflicted with standard cosmological scenarios. He states in summary:
:"Throughout the development of the program it has seemed increasingly clear that the redshift has properties inconsistent with a simple velocity and/or cosmic scale change interpretation. Various implications have been pointed out from time to time, but basically the work is observationally driven."<ref>{{cite journal |last=Tifft |first=W .G. |date=1995 |title=Redshift Quantization - A Review |journal=[[Astrophysics and Space Science]] |volume=227 |issue=1–2 |pages=25–39 |bibcode=1995Ap&SS.227...25T |doi=10.1007/BF00678064|s2cid=189849264 }}</ref>
==Early research==
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#In 1990, Bruce Guthrie and William Napier reported finding a "possible periodicity" of the same magnitude for a slightly larger data set limited to bright [[spiral galaxy|spiral galaxies]] and excluding other types.<ref>{{cite journal |bibcode=1990MNRAS.243..431G|doi = | title=The Virgo cluster as a test for quantization of extragalactic redshifts | journal=Monthly Notices of the Royal Astronomical Society |date=1990 |volume=243 |pages=431–442 |first1=B. N. G.|last1=Guthrie|first2=W. M.|last2=Napier}}</ref>
#In 1992, Guthrie and Napier proposed the observation of a different periodicity in increments of Δ''z'' = {{val|1.24|e=-4}} in a sample of 89 galaxies.<ref>{{cite journal |bibcode=1991MNRAS.253..533G|doi = 10.1093/mnras/253.3.533| title=Evidence for redshift periodicity in nearby field galaxies | journal=Monthly Notices of the Royal Astronomical Society |date=1991 |volume=253 |issue = 3|pages=533–544 |first1=B. N. G.|last1=Guthrie|first2=W. M.|last2=Napier|doi-access=free}}</ref>
#In 1992, Paal ''et al.'' and Holba ''et al.'' concluded that there was an unexplained periodicity of redshifts in a reanalysis of a large sample of galaxies.<ref>{{cite journal|bibcode=1992Ap&SS.191..107P|doi = 10.1007/BF00644200 | title=Inflation and compactification from Galaxy redshifts? | journal=Astrophysics and Space Science|date=1992|volume=191|issue=1|pages=107–124|first=G.|last=Paal|s2cid = 116951785 }}</ref><ref>{{cite journal |bibcode=1992Ap&SS.198..111H|doi = 10.1007/BF00644305 | title=Cosmological parameters and redshift periodicity | journal=Astrophysics and Space Science |date=1992 |volume=198 |issue=1 |pages=111–120 |first=Ágnes |last=Holba|s2cid = 118806486 }} See also reference to {{cite journal|bibcode=1990Natur.343..726B|doi = 10.1038/343726a0 | volume=343 | issue=6260|title=Large-scale distribution of galaxies at the Galactic poles|journal=Nature|date=1990|pages=726–728|first=T. J.|last=Broadhurst|s2cid = 4356867 }}</ref>
#In 1997, Guthrie and Napier concluded the same:
::"So far the redshifts of over 250 galaxies with high-precision HI profiles have been used in the study. In consistently selected sub-samples of the datasets of sufficient precision examined so far, the redshift distribution has been found to be strongly quantized in the galactocentric frame of reference. ... The formal confidence levels associated with these results are extremely high."<ref>{{cite journal|last=Napier|first=W. Μ.|author2=B. N. G. Guthrie |title=Quantized Redshifts: A Status Report|journal=J. Astrophys. Astron.|volume=18|issue=4|pages=455–463|date=1997|url=http://www.ias.ac.in/jarch/jaa/18/455-463.pdf|bibcode=1997JApA...18..455N|doi=10.1007/BF02709337|s2cid=73557034}}</ref>
==Quasar redshifts==
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#<math>n</math> is an integer with values 1, 2, 3, 4 ...
This predicts periodic redshift peaks at <math>z</math> = 0.061, 0.30, 0.60, 0.96, 1.41, and 1.9, observed originally in a sample of 600 quasars,<ref>{{cite journal | last1 = Burbidge| first1 = G. | year = 1978 | title=The line-locking hypothesis, absorption by intervening galaxies, and the Z = 1.95 peak in redshifts | url = | journal = Physica Scripta | volume = 17| issue = 3| pages = 237–241 | doi = 10.1088/0031-8949/17/3/017| bibcode= 1978PhyS...17..237B}}</ref> verified in later early studies.<ref>{{cite journal|bibcode=1994Ap&SS.222...65H|doi = 10.1007/BF00627083 | title=Once more on quasar periodicities | journal=Astrophysics and Space Science|date=1994|volume=222|issue=1–2|pages=65–83|first=Ágnes|last=Holba|s2cid = 118379051 }}</ref>
===Modern discourse===
A 2001 study by Burbidge and Napier found the pattern of periodicity predicted by Karlsson's formula to be present at a high [[confidence level]] in three new samples of quasars, concluding that their findings are inexplicable by spectroscopic or similar selection effects.<ref>{{cite journal | last1 = Burbidge| first1 = G. | year = 2001| title=The Distribution of Redshifts in New Samples of Quasi-stellar Objects | url = | journal = Astronomical Journal | volume = 121| issue = 1| pages = 21–30| arxiv=astro-ph/0008026 | bibcode= 2001AJ....121...21B| doi=10.1086/318018| s2cid = 15751692 }}</ref>
In 2002, Hawkins ''et al.'' found no evidence for redshift quantization in a sample of 1647 galaxy-quasar pairs from the [[2dF Galaxy Redshift Survey]]:
:"Given that there are almost eight times as many data points in this sample as in the previous analysis by Burbidge & Napier (2001), we must conclude that the previous detection of a periodic signal arose from the combination of noise and the effects of the window function."<ref>{{cite journal|author1=Hawkins|author2=Maddox|author3=Merrifield|title=No Periodicities in 2dF Redshift Survey Data|doi=10.1046/j.1365-8711.2002.05940.x|date=2002|journal=Monthly Notices of the Royal Astronomical Society|volume=336|pages=L13–L16|issue=13|arxiv=astro-ph/0208117|bibcode = 2002MNRAS.336L..13H |s2cid=6832490}}</ref>
In response, Napier and Burbidge (2003) argue that the methods employed by Hawkins ''et al.'' to remove noise from their samples amount to "excessive data smoothing" which could hide a true periodicity. They publish an alternate methodology for this that preserves the periodicity observed in earlier studies.<ref>{{cite journal|last1=Napier|first1=W. M.|last2=Burbidge|first2=G. R.|title=The detection of periodicity in QSO data sets|date=2003|journal=Monthly Notices of the Royal Astronomical Society|volume=342|pages=601–604|issue= 2|doi=10.1046/j.1365-8711.2003.06567.x |bibcode = 2003MNRAS.342..601N |doi-access=free}}</ref>
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A 2006 study of 46,400 quasars in the [[Sloan Digital Sky Survey|SDSS]] by Bell and McDiarmid discovered 6 peaks in the redshift distribution consistent with the decreasing intrinsic redshift (DIR) model. They conclude that this correlation is unlikely to be a [[selection effect]], given the method used to determine intrinsic redshift relations.<ref name="adsabs.harvard.edu"/>
Schneider ''et al.'' (2007) and Richards ''et al.'' (2006) report that the periodicity reported by Bell and McDiarmid disappears after correcting for selection effects.<ref>{{cite journal | last1 = Schneider | display-authors =etal | date=2007| title = The Sloan Digital Sky Survey Quasar Catalog. IV. Fifth Data Release| bibcode=2007AJ....134..102S | journal = The Astronomical Journal | volume = 134 | issue = 1| pages = 102–117 |doi = 10.1086/518474 |arxiv = 0704.0806 | s2cid =14359163 }}</ref><ref>{{cite journal | last1 = Richards | first1 = G. T. | display-authors =etal | date=2006| title = The Sloan Digital Sky Survey Quasar Survey: Quasar Luminosity Function from Data Release 3| journal = The Astronomical Journal | volume = 131 | issue = 6 | pages = 2766–2787 |doi = 10.1086/503559 |arxiv = astro-ph/0601434 | bibcode=2006AJ....131.2766R| s2cid = 55346862 }}</ref> However, Bell and Comeau (2010) have since argued that this correction removes nearly half of the sample and does not explain how selection effects give rise to redshift peaks. The same study also concludes that a "filter gap footprint" renders it impossible to verify or falsify the presence of a true redshift peak at Δ''z'' = 0.60.<ref>{{cite journal | last1 = Bell| first1 = M. B. | last2 = Comeau | first2 = S. P. | date=2010| title = Selection Effects in the SDSS Quasar Sample: The Filter Gap Footprint| journal = Astrophys Space Sci | volume = 326 | issue = 1| pages = 11–17 |doi = 10.1007/s10509-009-0232-2 |arxiv = 0911.5700 |bibcode = 2010Ap&SS.326...11B | s2cid = 118655062 }}</ref>
A 2006 review by Bajan ''et al.'' discovered weak effects of redshift periodization in data from the [[Local Group]] of galaxies and the [[Hercules Supercluster]]. They conclude that "galaxy redshift periodization is an effect which can really exist", but that the evidence is not well established pending study of larger databases.<ref>{{cite journal |bibcode=2007PPNL....4....5B|arxiv=astro-ph/0606294 | title=On the Investigations of Galaxy Redshift Periodicity | journal=Physics of Particles and Nuclei Letters |date=2007 |volume=4 |issue=1 |pages=5–10 |first1=K. |last1=Bajan |first2=P. |last2=Flin |first3=W. |last3=Godlowski |first4=V. N. |last4=Pervushin |doi=10.1134/s1547477107010025|s2cid=15364493 }}</ref>
A 2007 [[absorption spectroscopy|absorption spectroscopic]] analysis of quasars by Ryabinkov ''et al.'' observed a pattern of statistically significant alternating peaks and dips in the redshift range Δ''z'' = 0.0 − 3.7, though they noted no statistical correlation between their findings and Karlsson's formula.<ref>{{cite journal | last1 = Ryabinkov| first1 = A. I. | last2 = Kaminker| first2 = A. D. | last3 = Varshalovich| first3 = D. A. | date=2007| title = The redshift distribution of absorption-line systems in QSO spectra| journal = Mon. Not. R. Astron. Soc. | volume = 376| issue = 4 | pages = 1838–18481 | doi=10.1111/j.1365-2966.2007.11567.x | bibcode=2007MNRAS.376.1838R|arxiv = astro-ph/0703277 | s2cid = 16270925 }}</ref>
==References==
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