list of galaxy groups and clusters

!style="background:#CCCCCC;" width="20%" | Galaxy cluster

!style="background:#CCCCCC;text-align:center;" width="80%" | Notes

| In this collision between two clusters of galaxies, the stars pass between each other unhindered, while the hot, diffuse gas experiences friction and is left behind between the clusters. The gas dominates the visible mass budget of the clusters, being several times more massive than all the stars. Yet the regions with the stars show more gravitational lensing than the gas region, indicating that they are more massive than the gas. Some dark (since we don't see it), collision-less (or it would have been slowed, like the gas) matter is inferred to be present to account for the extra lensing around otherwise low-mass regions.{{Cite web | url=http://www.universetoday.com/2006/08/21/galaxy-collision-separates-out-the-dark-matter/ | title=Galaxy Collision Separates Out the Dark Matter |website=Universe Today | date=2006-08-21}}

| This is actually a collision between two galaxy clusters. The galaxies and the dark matter seems to have separated out into separate dark and light cores.{{Cite web | url=http://www.universetoday.com/2007/08/16/galaxy-cluster-collision-creates-a-dark-matter-core/ |website=Universe Today | title=Galaxy Cluster Collision Creates a Dark Matter Core| date=2007-08-16}}

| A collision between two massive, X-ray luminous galaxy clusters.

| This is a recently coalesced merger of galaxy clusters, which has resulted in a ring of dark matter around the galaxies, yet to be redistributed.{{Cite web | url=http://www.universetoday.com/2007/05/15/ring-of-dark-matter-discovered-around-a-galaxy-cluster/ |website=Universe Today | title=Ring of Dark Matter Discovered Around a Galaxy Cluster| date=2007-05-15}}SIMBAD, [http://simbad.u-strasbg.fr/simbad/sim-id?Ident=ClG+0024%2B17&NbIdent=1&Radius=2&Radius.unit=arcmin&submit=submit+id "ClG 0024+17"]

!style="background:#CCCCCC;text-align:center;" width="15%" | Galaxy cluster

!style="background:#CCCCCC;text-align:center;" width="35%" | Origin of name

!style="background:#CCCCCC;text-align:center;" width="50%" | Notes

| The cluster is named for the merger of two clusters colliding like a bullet.

| Also has a systematic designation of 1E 0657-56

| Named for its size, El Gordo ("the fat one") is the biggest cluster found in the distant universe (at its distance and beyond), at the time of discovery in 2011, with a mass of 3 quadrillion suns. The second most massive galaxy cluster next to El Gordo is RCS2 J2327, a galaxy cluster with the mass of 2 quadrillion suns.

| Also has a systematic designation of ACT-CL J0102-4915.{{cite web |last=Schilling |first=Govert |date=12 January 2012 |title=When Galaxies Crash |url=http://news.sciencemag.org/sciencenow/2012/01/when-galaxies-crash.html |website=ScienceNOW |archive-url=https://web.archive.org/web/20120129075039/http://news.sciencemag.org/sciencenow/2012/01/when-galaxies-crash.html |archive-date=2012-01-29}}{{Cite journal | url=http://www.csmonitor.com/Science/2012/0111/Humongous-El-Gordo-galaxy-cluster-packs-mass-of-2-quadrillion-stars | title=Humongous 'El Gordo' galaxy cluster packs mass of 2 quadrillion stars| journal=Christian Science Monitor| date=2012-01-11}}NASA, [http://www.nasa.gov/mission_pages/chandra/multimedia/elgordo_photo.html "El Gordo Galaxy Cluster"], 10 January 2012 (accessed 7 July 2012)

| Named in comparison to the Bullet Cluster, as this one is older and slower galaxy cluster merger than the Bullet Cluster.

| Also has a systematic designation of DLSCL J0916.2+2951.{{Cite web | url=https://www.sciencedaily.com/releases/2012/04/120412113714.htm | title=Discovery of the Musket Ball Cluster, a system of colliding galaxy clusters |website=Science Daily}}

| Named because the cluster resulted from a collision of clusters, which resulted in many different and strange phenomena.

| Also has a catalogue entry of Abell 2744.ESO, [http://www.eso.org/public/news/eso1120/ "A Galactic Crash Investigation"], 22 June 2011 (accessed 7 July 2012)

!style="background:#CCCCCC;text-align:center;" width="15%" | Galaxy group

!style="background:#CCCCCC;text-align:center;" width="35%" | Origin of name

!style="background:#CCCCCC;text-align:center;" width="50%" | Notes

|

| The galaxy group that includes the Milky Way.

| Named in comparison with the Bullet Cluster, being of similar formation, except smaller.

| Also has a systematic catalogue name SL2S J08544-0121. As of 2014, it was the lowest mass object that showed separation between the concentrations of dark matter and baryonic matter in the object.{{cite web |url= http://sci.esa.int/xmm-newton/54116-cosmic-collision-in-the-bullet-group/ |title= Cosmic collision in the Bullet Group |date= 6 June 2014 |author= XMM-Newton |publisher= European Space Agency }}{{cite journal |doi= 10.1093/mnrasl/slu058 |bibcode= 2014MNRAS.442L..76G |arxiv= 1404.5633 |title= Dark matter–baryons separation at the lowest mass scale: The Bullet Group |journal= Monthly Notices of the Royal Astronomical Society: Letters |volume= 442 |pages= L76–L80 |year= 2014 |last1= Gastaldello |first1= F. |doi-access= free |display-authors=etal }}

|

|

| Discovered by British astronomer Ralph Copeland in 1874.

|

| Coined by Tom Lorenzin (author of "1000+ The Amateur Astronomers' Field Guide to Deep Sky Observing") to honor Deer Lick Gap in the mountains of North Carolina, from which he had especially fine views of the galaxy group.

| Also referred to as the NGC 7331 Group, after the brightest member of the group.Saratoga Skies, [http://www.saratogaskies.com/image.pl?i=52 "NGC 7331 (Deer Lick Group and Stephan's Quintet)"], Jim Solomon (accessed 7 May 2009)

| Named for the fact it contains only three galaxies.

| This small group of galaxies lies in the constellation Leo.

|

| This stretch of galaxies forms part of the Virgo Cluster.

| It was named by Halton Arp and Barry F. Madore, who compiled A Catalogue of Southern Peculiar Galaxies and Associations in 1987.

| This compact group of galaxies lies 160 million light-years away in the Phoenix constellation.

| Named after its discoverer, Carl Seyfert. At the time it appeared to contain six external nebulae. It is also called the NGC 6027 Sextet, after its brightest member.

| There are actually only five galaxies in the sextet, and only four galaxies in the compact group. One of the galaxies is an ungravitationally bound background object. The other "galaxy" is instead an extension of the interacting system — a tidal stream caused by the merger. The group is, therefore, more properly called HCG 79; the name refers to the visual collection and not the group. HCG 79 lies 190 million light-years away in the Serpens Caput constellation.

| Named after its discoverer, Édouard Stephan.

| There are actually only four galaxies in the compact group, the other galaxy is a foreground galaxy. The group is therefore more properly called HCG 92, because the name refers to a visual collection and not a group. Thus, the real group is also called Stephan's Quartet.

| Named after the British-born and Australia-based astronomer Paul Wild (1923–2008), who studied the trio in the early 1950s.{{cite web |title=Wild's Triplet |url=http://www.oxfordreference.com/view/10.1093/oi/authority.20110803122508142 |website=Oxford Reference |access-date=13 October 2018}}

|

|

|

!style="background:#CCCCCC;text-align:center;" width="25%" | Galaxy group

!style="background:#CCCCCC;text-align:center;" width="10%" | Visible galaxies

!style="background:#CCCCCC;text-align:center;" width="65%" | Notes

| Apart from the Milky Way, only 4 galaxies are visible to the naked eye.

|The Centaurus A galaxy has been spotted with the naked eye by Stephen James O'Meara {{Cite web | url=http://astronomy-mall.com/Adventures.In.Deep.Space/aintno.htm | title=Aintno Catalog}}{{cite book | doi=10.1007/978-1-84628-736-7_4 | year=2007 | pages=[https://archive.org/details/astrophysicsisea0000ingl/page/157 157–189] | last1=Inglis | first1=Mike | title=Astrophysics is Easy! An Introduction for the Amateur Astronomer | chapter=Galaxies | series=Patrick Moore's Practical Astronomy Series | isbn=978-1-85233-890-9 | chapter-url=https://archive.org/details/astrophysicsisea0000ingl/page/157 }} and M83 has also reportedly been seen with the naked eye.

{{cite book

|doi=10.1007/978-1-84628-736-7_4

|last1=Inglis

|first1=Mike

|title=Astrophysics is Easy! An Introduction for the Amateur Astronomer

|chapter=Galaxies

|series=Patrick Moore's Practical Astronomy Series

|pages=[https://archive.org/details/astrophysicsisea0000ingl/page/157 157–189]

|year=2007

|isbn=978-1-85233-890-9

|chapter-url=https://archive.org/details/astrophysicsisea0000ingl/page/157

}}

| Only Bode's Galaxy (M81, NGC 3031) is visible to the naked eye.{{cite web|url=http://www.uitti.net/stephen/astro/essays/farthest_naked_eye_object.shtml |title=Farthest Naked Eye Object |publisher=Uitti.net |author=Stephen Uitti |date=27 May 2005 |access-date=2008-11-01}}SEDS, [http://messier.seds.org/m/m081.html Messier 81]

!style="background:#CCCCCC;text-align:center;" width="15%" | First discovered

!style="background:#CCCCCC;text-align:center;" width="40%" | Name

!style="background:#CCCCCC;text-align:center;" width="10%" | Date

!style="background:#CCCCCC;text-align:center;" width="45%" | Notes

| Virgo Cluster

| Discovered by Charles Messier.{{cite book |arxiv = astro-ph/0010409|bibcode = 2000cucg.confE...1B|last1 = Biviano|first1 = Andrea|chapter = From Messier to Abell: 200 years of science with galaxy clusters|title=Constructing the Universe with Clusters of Galaxies, IAP 2000 meeting, Paris, France, July 2000 |journal = Constructing the Universe with Clusters of Galaxies|page = 1 |editor=Florence Durret |editor2=Daniel Gerbal |display-authors=etal|year = 2000}}

|

|

|

| The four brightest members of Stephan's Quintet

| Discovered by Edouard Stephan.

|

|

|

| Magellanic Clouds

|

!style="background:#CCCCCC;text-align:center;" | Title

!style="background:#CCCCCC;text-align:center;" | Name

!style="background:#CCCCCC;text-align:center;" | Data

!style="background:#CCCCCC;text-align:center;" | Notes

!style="background:#CCCCCC;text-align:center;" | time

| CL J1001+0220

| redshift z=2.506

| Announced August 2016.

| {{cite journal |arxiv=1604.07404 |doi=10.3847/0004-637X/828/1/56 |title=Discovery of a galaxy cluster with a violently starbursting core at z=2.506 |journal=The Astrophysical Journal |volume=828 |number=1 |year=2016 |last1=Wang |first1=Tao |display-authors=etal |bibcode = 2016ApJ...828...56W |page=56|s2cid=8771287 |doi-access=free }}

| Virgo Cluster

|

| The Virgo Cluster is at the core of the Virgo Supercluster. The Local Group is a member of the supercluster, but not the cluster.

|

|

|

|

|

| Local Group

| 0 distance

| This is the galaxy group that our galaxy belongs to.

|

| IC 342/Maffei Group

|

|

|

| A2744z7p9OD

| z=7.88

|

| {{cite journal|title= Early results from GLASS-JWST. XVIII: A spectroscopically confirmed protocluster 650 million years after the Big Bang|author1=Morishita, Takahiro |author2=Roberts-Borsani, Guido |author3=Treu, Tommaso |author4=Brammer, Gabriel |author5=Mason, Charlotte A. |author6=Trenti, Michele |author7=Vulcani, Benedetta |author8=Wang, Xin |author9=Acebron, Ana |author10=Bahé, Yannick |author11=Bergamini, Pietro |author12=Boyett, Kristan |author13=Bradac, Marusa |author14=Calabrò, Antonello |author15=Castellano, Marco |author16=Chen, Wenlei |author17=De Lucia, Gabriella |author18=Filippenko, Alexei V. |author19=Fontana, Adriano |author20=Glazebrook, Karl |author21=Grillo, Claudio |author22=Henry, Alaina |author23=Jones, Tucker |author24=Kelly, Patrick L. |author25=Koekemoer, Anton M. |author26=Leethochawalit, Nicha |author27=Lu, Ting-Yi |author28=Marchesini, Danilo |author29=Mascia, Sara |author30=Mercurio, Amata |author31=Merlin, Emiliano |author32=Metha, Benjamin |author33=Nanayakkara, Themiya |author34=Nonino, Mario |author35=Paris, Diego |author36=Pentericci, Laura |author37=Santini, Paola |author38=Strait, Victoria |author39=Vanzella, Eros |author40=Windhorst, Rogier A. |author41=Rosati, Piero |author42=Xie, Lizhi |date= 30 January 2023|arxiv= 2211.09097|journal= Astrophysical Journal Letters |volume=947 |issue=2 |doi=10.3847/2041-8213/acb99e |s2cid=253553396 |doi-access=free |bibcode=2023ApJ...947L..24M }}

|

|

|

|

| z66OD

| z=6.585

| At time of discovery in 2019, the object had 12 members, including Himiko.

| {{cite news|url= https://www.sciencedaily.com/releases/2019/09/190927074941.htm|title= Oldest galaxy protocluster forms 'queen's court'|date= 27 September 2019|author= National Institutes of Natural Sciences|work= ScienceDaily}}{{cite journal|title= SILVERRUSH. VIII. Spectroscopic Identifications of Early Large Scale Structures with Protoclusters Over 200 Mpc at z~6-7: Strong Associations of Dusty Star-Forming Galaxies|author=Yuichi Harikane |author2=Masami Ouchi |author3=Yoshiaki Ono |author4=Seiji Fujimoto |author5=Darko Donevski |author6=Takatoshi Shibuya |author7=Andreas L. Faisst |author8=Tomotsugu Goto |author9=Bunyo Hatsukade |author10=Nobunari Kashikawa |author11=Kotaro Kohno |author12=Takuya Hashimoto |author13=Ryo Higuchi |author14=Akio K. Inoue |author15=Yen-Ting Lin |author16=Crystal L. Martin |author17=Roderik Overzier |author18=Ian Smail |author19=Jun Toshikawa |author20=Hideki Umehata |author21=Yiping Ao |author22=Scott Chapman |author23=David L. Clements |author24=Myungshin Im |author25=Yipeng Jing |author26=Toshihiro Kawaguchi |author27=Chien-Hsiu Lee |author28=Minju M. Lee |author29=Lihwai Lin |author30=Yoshiki Matsuoka |author31=Murilo Marinello |author32=Tohru Nagao |author33=Masato Onodera |author34=Sune Toft |author35=Wei-Hao Wang |date= 25 February 2019|bibcode= 2019ApJ...883..142H|arxiv= 1902.09555|journal= Astrophysical Journal|publication-date= 30 September 2019|doi= 10.3847/1538-4357/ab2cd5|volume= 883|issue= 2|page= 142|s2cid= 118955475|doi-access= free}}{{cite news|url= https://www.upi.com/Science_News/2019/09/27/Astronomers-spot-oldest-galactic-protocluster-a-giant-of-the-early-universe/1391569591666/|title= Astronomers spot oldest galactic protocluster, a giant of the early universe|date= 27 September 2019|agency= UPI}}

|

|

|

|

| RX J1347.5-1145

| mass= 2.0 ± 0.4 × 10¹⁵ M_Sun

|

• distance: z= 0.451
• L_X-ray = 6.0 ± 0.1 × 10⁴⁵ erg/s {{small|in the [2-10] keV energy band}}
• temperature: kT = 10.0 ± 0.3 keV

|

{{Cite web | url=http://astronomynow.com/080827XMMdiscoversmonstergalaxycluster.html | title=080827 XMM discovers monster galaxy cluster |website=Astronomy Now}}{{cite journal |arxiv=astro-ph/0409627 |bibcode=2004A&A...427L...9G |doi=10.1051/0004-6361:200400086|title=XMM-Newtonobservation of the most X-ray-luminous galaxy cluster RX J1347.5-1145 |journal=Astronomy & Astrophysics |volume=427 |pages=L9–L12 |year=2004 |last1=Gitti |first1=M. |s2cid=119342554 |display-authors=etal}}

|+ Galaxy groups closer than the Virgo Cluster

!style="background:#CCCCCC;text-align:center;" | Galaxy group

!style="background:#CCCCCC;text-align:center;" width="15%" | Distance

!style="background:#CCCCCC;text-align:center;" | Redshift (z)

!style="background:#CCCCCC;text-align:center;" | Recession velocity (km/s)

!style="background:#CCCCCC;text-align:center;" | Notes

| Our Galaxy, the Milky Way, belongs to the Local Group.

|

| 0.000868

| The IC 342/Maffei Group contains two subgroups, the IC 342 subgroup (IC 342 Group) and the Maffei 1 subgroup (Maffei subgroup, Maffei 1 Group, Maffei Group).

| {{convert|3.5|Mpc|Mly|1|abbr=on|lk=on}}

| 0.001115

| Hayden Planetarium, [http://haydenplanetarium.org/universe/duguide/exgt_abell.php Galaxy Clusters and Superclusters] {{webarchive|url=https://web.archive.org/web/20080819184054/http://haydenplanetarium.org/universe/duguide/exgt_abell.php |date=2008-08-19 }}

| {{convert|3.66|Mpc|Mly|1|abbr=on|lk=on}}

| 0.000999

| The Centaurus A/M83 Group contains two subgroups, the Centaurus A subgroup (Centaurus A Group, NGC 5128 Group, LGG 344) and the M83 subgroup (M83 Group, NGC 5236 Group, LGG 355).

| {{convert|3.9|Mpc|Mly|1|abbr=on|lk=on}}

|

|

|

| {{convert|4|Mpc|Mly|1|abbr=on|lk=on}}

| 0.001612

|

| {{convert|6.12|Mpc|Mly|1|abbr=on|lk=on}}

| 0.002926

|

| {{convert|7.33|Mpc|Mly|1|abbr=on|lk=on}}

| 0.001288

|

| {{convert|7.66|Mpc|Mly|1|abbr=on|lk=on}}

| 0.002615

|

| {{convert|8|Mpc|Mly|1|abbr=on|lk=on}}

|

|

|

| {{convert|9.5|Mpc|Mly|1|abbr=on|lk=on}}

| 0.001850

|

| {{convert|10.75|Mpc|Mly|1|abbr=on|lk=on}}

| 0.002207

|

| {{convert|11.66|Mpc|Mly|1|abbr=on|lk=on}}

| 0.002267

|

| {{convert|12.25|Mpc|Mly|1|abbr=on|lk=on}}

|

|

|

|

| 0.003020

|

| {{convert|16.88|Mpc|Mly|1|abbr=on|lk=on}}

| 0.003388

|

• Mly represents millions of light-years, a measure of distance.
• Mpc represents millions of parsecs, a measure of distance (1 Mpc = 3.26 Mly).
• z represents redshift, a measure of recessional velocity and inferred distance due to cosmological expansion.
  In this very nearby context, however, the observed redshift and recessional velocity are due to the Doppler shifting of the light.
• Distances are measured from Earth, with Earth being at zero.

|+ Closest clusters

!style="background:#CCCCCC;text-align:center;" | Galaxy cluster

!style="background:#CCCCCC;text-align:center;" width="12%" | Distance

!style="background:#CCCCCC;text-align:center;" | Redshift (z)

!style="background:#CCCCCC;text-align:center;" width="10%" | Recession velocity (km/s)

!style="background:#CCCCCC;text-align:center;" | Notes

| {{convert|18|Mpc|Mly|0|abbr=on|lk=on}}

| 0.0038

| The Virgo Cluster is at the core of the Virgo Supercluster. The Local Group is a member of the supercluster, but not the cluster.Hayden Planetarium, [http://haydenplanetarium.org/universe/duguide/exgt_twomass.php The 2MASS Galaxies] {{webarchive|url=https://web.archive.org/web/20080828194802/http://haydenplanetarium.org/universe/duguide/exgt_twomass.php |date=2008-08-28 }}

| {{convert|19|Mpc|Mly|0|abbr=on|lk=on}}

| 0.0046

|

| {{convert|40.7|Mpc|Mly|0|abbr=on|lk=on}}

| 0.0087

| Also called the Antlia Group.

| 52.4 Mpc

| 0.0110

|

| 58.3 Mpc

| 0.0114

|

• Mly represents millions of light-years, a measure of distance.
• Mpc represents millions of parsecs, a measure of distance.
• z represents redshift, a measure of recessional velocity and inferred distance due to cosmological expansion.
• Distances are measured from Earth, with Earth being at zero.

|+ Farthest clusters

!style="background:#CCCCCC;text-align:center;" width="25%"| Galaxy cluster

!style="background:#CCCCCC;text-align:center;" width="15%"| Distance

!style="background:#CCCCCC;text-align:center;" width="60%" | Notes

• Mly represents millions of light-years, a measure of distance.
• Mpc represents millions of parsecs, a measure of distance.
• z represents redshift, a measure of recessional velocity and inferred distance due to cosmological expansion.
• Distances are measured from Earth, with Earth being at zero.

|+ Most remote cluster titleholder

!style="background:#CCCCCC;text-align:center;" | Galaxy cluster

!style="background:#CCCCCC;text-align:center;" | Date

!style="background:#CCCCCC;text-align:center;" | Redshift (z)

!style="background:#CCCCCC;text-align:center;" | Recession Velocity
(km/s)

!style="background:#CCCCCC;text-align:center;" | Notes

| 2016 − 

| 2.506

|

|

| 2011–2016

| 2.07

|

| {{cite journal |arxiv=1011.1837 |bibcode=2011A&A...526A.133G |doi=10.1051/0004-6361/201016084|title=A mature cluster with X-ray emission at z= 2.07 |journal=Astronomy & Astrophysics |volume=526 |pages=A133 |year=2011 |last1=Gobat |first1=R. |s2cid=39625321 |display-authors=etal }}ABC News (Australia), [http://www.abc.net.au/science/articles/2011/03/10/3159483.htm "Astronomers find old heads in a young crowd"], Stuart Gary, 10 March 2011SIMBAD, [http://simbad.u-strasbg.fr/simbad/sim-basic?Ident=CLg+J1449%2B0856&submit=SIMBAD+search "ClG J1449+0856"]

| 2009–2011

| 1.9

|

|

| 2006–2009

| 1.45

|

| XMM-XCS 2215-1738 was also the most massive early cluster so far discovered.XCS, {{cite web |url= http://www.astro.ljmu.ac.uk/~xcs/Publications/XCS_NAM06.pdf |title= XMM Cluster Survey - discovering the most distant galaxy clusters }}{{dead link|date=December 2017 |bot=InternetArchiveBot |fix-attempted=yes }}, April 2006University of Portsmith - Institute of Cosmology and Gravitation; [http://www.icg.port.ac.uk/archive/0611_stanford_cluster_prt.htm ICG in team that detects the most distant galaxy cluster] {{webarchive|url=https://web.archive.org/web/20070812121920/http://www.icg.port.ac.uk/archive/0611_stanford_cluster_prt.htm |date=2007-08-12 }}, 15 June 2006

| 2005–2006

| 1.41

|

| NASA - Spitzer Space Telescope, [http://www.spitzer.caltech.edu/Media/mediaimages/sig/sig06-006.shtml Great Galactic Buddies] {{webarchive|url=https://web.archive.org/web/20080511161332/http://www.spitzer.caltech.edu/Media/mediaimages/sig/sig06-006.shtml |date=2008-05-11 }}{{cite journal|title= An IR-selected Galaxy Cluster at z = 1.41|journal = The Astrophysical Journal|volume = 634|issue = 2|pages = L129–L132|arxiv = astro-ph/0510655|bibcode = 2005ApJ...634L.129S|last1 = Stanford|first1 = S. A. |display-authors=etal |year = 2005|doi = 10.1086/499045|s2cid = 18016845}}

| 2005

| 1.393

|

| New Scientist, [https://www.newscientist.com/article.ns?id=dn7087 Most distant galaxy cluster yet is revealed], 08:00 02 March 2005[http://www.astro.lsa.umich.edu/~cmullis/research/xmmuj2235/index.html The Most Distant X-ray Massive Galaxy Cluster XMMU J2235.3-2557 z=1.4] {{webarchive|url=https://web.archive.org/web/20080209185233/http://www.astro.lsa.umich.edu/~cmullis/research/xmmuj2235/index.html |date=2008-02-09 }}ESO Press Release 04/05; [http://www.eso.org/public/outreach/press-rel/pr-2005/pr-04-05.html Surprise Discovery of Highly Developed Structure in the Young Universe] {{webarchive|url=https://web.archive.org/web/20080611105322/http://www.eso.org/public/outreach/press-rel/pr-2005/pr-04-05.html |date=2008-06-11 }}; 2 March 2005

| 1997–

| 1.276

|

| ClG 0848+4453 forms a double-cluster supercluster with RDCS J0849+4452{{Cite journal |arxiv = astro-ph/0012250|doi = 10.1086/320583|title = The Intracluster Medium inz > 1 Galaxy Clusters|journal = The Astrophysical Journal|volume = 552|issue = 2|pages = 504–507|year = 2001|last1 = Stanford|first1 = S. A. |bibcode = 2001ApJ...552..504S|s2cid = 5109074|display-authors=etal}}{{Cite journal |bibcode = 1997AJ....114.2232S|title = An IR-Selected Galaxy Cluster at ζ=1.27|journal = The Astronomical Journal|volume = 114|page = 2232|last1 = Stanford|first1 = S. A.|display-authors=etal|year = 1997|arxiv = astro-ph/9709057|doi = 10.1086/118643|s2cid = 117163515}}

| 1984–

| 1.206

|

| At the time, the BCG, 3C324 was the most distant non-quasar galaxy.{{Cite journal |bibcode = 1984ApJ...280L...9S|title = 3C 324 - an extremely distant cluster radio galaxy|journal = The Astrophysical Journal|volume = 280|pages = L9|last1 = Spinrad|first1 = H.|last2 = Djorgovski|first2 = S.|year = 1984|doi = 10.1086/184258|url = https://authors.library.caltech.edu/97539/1/1984ApJ___280L___9S.pdf}}

| 1960–1975

| 0.461

|

| The measurement of 3C295's redshift in 1960 also defined its cluster's position. 3C 295 was also the most distant galaxy of the time.{{Cite journal |bibcode = 1961ApJ...133..355S|title = The Ability of the 200-INCH Telescope to Discriminate Between Selected World Models|journal = The Astrophysical Journal|volume = 133|page = 355|last1 = Sandage|first1 = Allan|year = 1961|doi = 10.1086/147041}}Palomar Skies, [http://palomarskies.blogspot.com/2008/03/pushing-limit.html Pushing the limit], Saturday, March 29, 2008

| 1951–1960

| 0.2

| 61 000 

| Attempts at measuring the redshift of the brightest cluster galaxy of this Hydra Cluster had been attempted for years before it had been successfully achieved. The BCG was also the most distant galaxy of the time.{{Cite journal |bibcode = 1953Obs....73...97.|title = 1053 May 8 meeting of the Royal Astronomical Society|journal = The Observatory|volume = 73|page = 97|year = 1953}}Annu. Rev. Astron. Astrophys. 1988. 26: 561-630; OBSERVATIONAL TESTS OF WORLD MODELS - [http://nedwww.ipac.caltech.edu/level5/Sept01/Sandage/Sand6.html 6. THE m(z) HUBBLE DIAGRAM]; Allan Sandage{{Cite journal |bibcode = 1958ASPL....7..393M|title = From Atoms to Galaxies|journal = Leaflet of the Astronomical Society of the Pacific|volume = 7|issue = 349|page = 393|last1 = Merrill|first1 = Paul W.|year = 1958}}

| 1936–1951

| 0.13

| 39 000 

| The BCG of this cluster was also the most distant galaxy of the time.{{Cite journal |bibcode = 1936ApJ....83...10H|title = The Apparent Radial Velocities of 100 Extra-Galactic Nebulae|journal = The Astrophysical Journal|volume = 83|page = 10|last1 = Humason|first1 = M. L.|year = 1936|doi = 10.1086/143696|doi-access = free}}

| 1932 − 1936

| 0.075

| 23 000 

| The BCG of this cluster was the most distant galaxy at the time.{{Cite journal |bibcode = 1932JRASC..26..180C|title = Notes and Queries (Doings at Mount Wilson-Ritchey's Photographic Telescope-Infra-red Photographic Plates)|journal = Journal of the Royal Astronomical Society of Canada|volume = 26|page = 180|last1 = Chant|first1 = C. A.|year = 1932}}

| 1931–1932

|

| 19 700 

| The BCG of this cluster was the most distant galaxy known at the time.{{Cite journal |bibcode = 1931ApJ....74...35H|title = Apparent Velocity-Shifts in the Spectra of Faint Nebulae|journal = The Astrophysical Journal|volume = 74|page = 35|last1 = Humason|first1 = Milton L.|year = 1931|doi = 10.1086/143287}}{{Cite journal |bibcode = 1931ApJ....74...43H|title = The Velocity-Distance Relation among Extra-Galactic Nebulae|journal = The Astrophysical Journal|volume = 74|page = 43|last1 = Hubble|first1 = Edwin|last2 = Humason|first2 = Milton L.|year = 1931|doi = 10.1086/143323}}{{Cite journal |bibcode = 1931ASPL....1..149H|title = The Large Apparent Velocities of Extra-Galactic Nebulae|journal = Leaflet of the Astronomical Society of the Pacific|volume = 1|issue = 37|page = 149|last1 = Humason|first1 = M. L.|year = 1931}}

| 1930–1931

|

| 11 700 

| The BCG of this cluster was the highest redshift galaxy of the time.{{Cite journal |bibcode = 1930ApJ....71..351H|title = The Rayton short-focus spectrographic objective|journal = The Astrophysical Journal|volume = 71|page = 351|last1 = Humason|first1 = M. L.|year = 1930|doi = 10.1086/143255|doi-access = free}}

| 1929–1930

| 0.026

| 7 800 

| This cluster's distance was determined by one of the NGC objects lying in it, NGC4860.{{Cite journal |bibcode = 1929PASP...41..244.|title = The Berkeley Meeting of the Astronomical Society of the Pacific, June 20-21, 1929|journal = Publications of the Astronomical Society of the Pacific|volume = 41|issue = 242|page = 244|year = 1929|doi = 10.1086/123945|doi-access = free}}

| 1929

| 0.012

| 3 779 

| The BCG for this group was used to measure its redshift. Shortly after this was publicized, it was accepted that redshifts were an acceptable measure of inferred distance.From the Proceedings of the National Academy of Sciences; Volume 15 : March 15, 1929 : Number 3; [http://antwrp.gsfc.nasa.gov/diamond_jubilee/d_1996/hum_1929.html THE LARGE RADIAL VELOCITY OF N. G. C. 7619]; January 17, 1929

| 1921–1929

| 0.006

| 1 800 

| NGC 584 (Dreyer 584) was measured for the redshift to this galaxy group.{{Cite journal |bibcode = 1920BHarO.739....1B|title = Comet Skjellerup|journal = Harvard College Observatory Bulletin|volume = 739|page = 1|last1 = Bailey|first1 = S. I.|year = 1920}}New York Times, [https://query.nytimes.com/gst/abstract.html?res=9906E2DA153CE533A2575AC1A9679C946095D6CF DREYER NEBULA NO. 584 INCONCEIVABLY DISTANT; Dr. Slipher Says the Celestial Speed Champion Is 'Many Millions of Light Years' Away.]; January 19, 1921, WednesdayNew York Times, [https://query.nytimes.com/gst/abstract.html?res=9F06E1DB153CE533A2575BC1A9679C946095D6CF NEBULA DREYER BREAKS ALL SKY SPEED RECORDS; Portion of the Constellation of Cetus Is Rushing Along at Rate of 1,240 Miles a Second.]; January 18, 1921, Tuesday

| 1784–1921

| 59 Mly (18 Mpc)
z=0.003

| 1 200 

| This was the first noted cluster of "nebulae" that would become galaxies. The first redshifts to galaxies in the cluster were measured in the 1910s. Galaxies were not identified as such until the 1920s. The distance to the Virgo Cluster would have to wait until the 1930s.

• Mly represents millions of light-years, a measure of distance.
• Mpc represents millions of parsecs, a measure of distance.
• z represents redshift, a measure of recessional velocity and inferred distance due to cosmological expansion.
• Distances are measured from Earth, with Earth being at zero.

|+ 5 Farthest protoclusters

!style="background:#CCCCCC;text-align:center;" width="25%"| Galaxy protocluster

!style="background:#CCCCCC;text-align:center;" width="15%"| Distance

!style="background:#CCCCCC;text-align:center;" width="60%" | Notes

• Mly represents millions of light-years, a measure of distance.
• Mpc represents millions of parsecs, a measure of distance.
• z represents redshift, a measure of recessional velocity and inferred distance due to cosmological expansion.
• Distances are measured from Earth, with Earth being at zero.

|+ Most remote protocluster titleholder

!style="background:#CCCCCC;text-align:center;" | Galaxy protocluster

!style="background:#CCCCCC;text-align:center;" | Date

!style="background:#CCCCCC;text-align:center;" | Redshift (z)

!style="background:#CCCCCC;text-align:center;" | Notes

| 2012

| ~ 8

| SpaceTelescope.org (ESA), [http://www.spacetelescope.org/images/heic1201a/ "Hubble Spies Building Blocks of Most Distant Galaxy Cluster"], 10 January 2012 (accessed March 2012)

| 2011–

| 5.3

| Located in Sextans, the cluster appears to contain 11 young small galaxies.{{cite web |last=Naeye |first=Robert |date=13 January 2011 |url=http://www.skyandtelescope.com/news/113460379.html |title=The Most Distant Galaxy Cluster |website=Sky & Telescope |archive-url=https://archive.today/20130202090546/http://www.skyandtelescope.com/news/113460379.html |archive-date=2013-02-02 }}BBC News, [https://www.bbc.co.uk/news/science-environment-12178936 "Galaxy clusters' ancient light shows young cosmic city"], Jason Palmer, 13 January 2011

| 2002–

| 4.11

| It was described as the most distant cluster.Associated Press, [https://www.nbcnews.com/id/wbna3881727 Oldest, most distant galaxy clusters found], 4:37 p.m. ET, Mon., Jan. 5, 2004{{cite journal | doi = 10.1086/340563| arxiv=astro-ph/0203249 | volume=569 | title=The Most Distant Structure of Galaxies Known: A Protocluster at [CLC][ITAL]z[/ITAL][/CLC] = 4.1 | year=2002 | journal=The Astrophysical Journal | pages=L11–L14 | last1 = Venemans | first1 = B. P.| doi-access=free }}Science, [http://bric.postech.ac.kr/science/97now/02_4now/020412a.html Oldest Galaxy Cluster Found], 12 April 2002ESO Press Release 07/02; [http://www.eso.org/public/outreach/press-rel/pr-2002/pr-07-02.html Most Distant Group of Galaxies Known in the Universe] {{webarchive|url=https://web.archive.org/web/20080916231352/http://www.eso.org/public/outreach/press-rel/pr-2002/pr-07-02.html |date=2008-09-16 }}; 9 April 2002

| 1982–

| 1.13

| Publications of the Astronomical Society of the Pacific, vol. 94, June–July 1982, p. 397-403. [http://articles.adsabs.harvard.edu/full/1982PASP...94..397S Redshifts and spectroscopy of very distant radio galaxies with strong emission lines] 1982PASP...94..397S

• z represents redshift, a measure of recessional velocity and inferred distance due to cosmological expansion.
• Distances are measured from Earth, with Earth being at zero.

!style="background:#CCCCCC;" width="15%"| Former cluster

!style="background:#CCCCCC;text-align:center;" | Notes

| The Cancer Cluster was found to be a random assortment of galaxy groups, and not a true cluster.

| The early identification of the Coma-Virgo Cloud of Nebulae was actually a mistaken identification due to the superposition of the Virgo Supercluster and Coma Supercluster, and not a Coma-Virgo Supercluster