92:
can activate supermassive black holes within galaxies, thereby resulting in quenching via feedback from active galactic nuclei jets. Merger events can also trigger rapid bursts of star formation. This rapid star formation can lead to high rates of events like
291:
Chen, Zhu; Faber, S. M.; Koo, David C.; Somerville, Rachel S.; Primack, Joel R.; Dekel, Avishai; RodrĂguez-Puebla, Aldo; Guo, Yicheng; Barro, Guillermo; Kocevski, Dale D.; Wel, A. van der (2020-07-07).
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at its center may start growing rapidly, and somehow start quenching the galaxy, which relatively quickly transitions through the "green valley", ending up more red.
145:
between massive galaxies of red elliptical galaxies, which have little active star formation, and blue spiral galaxies, with active star formation. One common
68:
Several proposed galaxy quenching mechanisms rely on the environment a galaxy is situated in. One example of this is when a galaxy passes through a dense
176:"The green valley is a red herring: Galaxy Zoo reveals two evolutionary pathways towards quenching of star formation in early- and late-type galaxies"
80:
force which can strip gas away from the galaxy. Through this mechanism, known as ram pressure stripping, galaxies can be depleted of gas.
174:; Kaviraj, Sugata; Keel, William C.; Lintott, Chris J.; Masters, Karen L.; Nichol, Robert C.; Sarzi, Marc; Skibba, Ramin (2014-05-01).
35:. Several possible astrophysical mechanisms have been proposed that could lead to quenching, which either result in a lack of cold
652:
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129:, the first generation of stars heated gas throughout the universe. This process is thought to have quenched some smaller
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RodrĂguez
Montero, Francisco; Davé, Romeel; Wild, Vivienne; Anglés-Alcázar, Daniel; Narayanan, Desika (2019-12-01).
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Roberts, I. D.; van Weeren, R. J.; McGee, S. L.; Botteon, A.; Ignesti, A.; Rottgering, H. J. A. (August 2021).
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361:"AGN-driven quenching of star formation: morphological and dynamical implications for early-type galaxies"
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can reduce the efficiency of star formation over time, leading to lowered rates of star formation.
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of some active supermassive black holes may heat up cold gas, thus suppressing star formation.
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520:"Hungry black holes trapped in an intimate dance feast on leftovers from a galactic merger"
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412:"Supermassive black holes shut down star formation during cosmic noon, says astronomer"
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Martig, Marie; Bournaud, Frédéric; Teyssier, Romain; Dekel, Avishai (2009-12-10).
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31:. A galaxy that has been quenched (with little active star formation) is called a
142:
36:
463:"LoTSS jellyfish galaxies: II. Ram pressure stripping in groups versus clusters"
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Dubois, Yohan; Gavazzi, Raphaël; Peirani, Sébastien; Silk, Joseph (2013-08-21).
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596:"The interaction between feedback from active galactic nuclei and supernovae"
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675:"Morphological Quenching of Star Formation: Making Early-Type Galaxies Red"
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294:"Quenching as a Contest between Galaxy Halos and Their Central Black Holes"
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97:, which disrupt cold gas. This quenched state is sometimes called a post-
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39:, or a decrease in how efficiently stars can form from molecular gas.
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237:"Over My Dead Body: Keeping Dead Galaxies from Forming New Stars"
653:"Post-starburst galaxies: the missing link in galaxy evolution?"
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medium. The motion of the galaxy through this medium creates a
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When a galaxy loses cold gas, thus suppressing star formation
545:"Mergers, starbursts, and quenching in the simba simulation"
265:"Galactic star formation and supermassive black hole masses"
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437:"The end of star formation in satellites: where and when?"
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In morphological quenching, a galaxy’s evolution from a
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Schawinski, Kevin; Urry, C. Megan; Simmons, Brooke D.;
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549:Monthly Notices of the Royal Astronomical Society
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141:The process of quenching is connected to
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651:Ramasawmy, Joanna (Feb 1, 2018).
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133:with small cold gas reservoirs.
56:may drive quenching. The strong
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54:active supermassive black holes
48:Active supermassive black holes
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435:Proctor, Katy (Mar 26, 2022).
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157:with much star formation. The
151:galaxy color–magnitude diagram
137:Quenching and galaxy evolution
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467:Astronomy & Astrophysics
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709:10.1088/0004-637X/707/1/250
497:10.1051/0004-6361/202141118
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235:Cook, Ben (Nov 24, 2014).
679:The Astrophysical Journal
298:The Astrophysical Journal
747:Supermassive black holes
329:10.3847/1538-4357/ab9633
23:is the process in which
489:2021A&A...652A.153R
105:Morphological quenching
64:Environmental quenching
52:Evidence suggests that
153:may start with a blue
143:the observed dichotomy
572:10.1093/mnras/stz2580
127:Epoch of Reionization
388:10.1093/mnras/stt997
211:10.1093/mnras/stu327
88:Inflows of gas from
43:Quenching mechanisms
701:2009ApJ...707..250M
622:2013NatSR....E1738B
320:2020ApJ...897..102C
202:2014MNRAS.440..889S
600:Scientific Reports
630:10.1038/srep01738
147:evolutionary path
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186:(1): 889–907.
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131:dwarf galaxies
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90:galaxy mergers
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84:Galaxy Mergers
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25:star formation
19:In astronomy,
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37:molecular gas
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656:. Retrieved
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121:Reionization
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78:ram pressure
70:intracluster
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606:(1): 1738.
731:Categories
562:1907.12680
529:2024-07-06
480:2106.06315
441:Astrobites
421:2024-07-06
311:1909.10817
304:(1): 102.
274:2020-07-17
241:Astrobites
165:References
159:black hole
95:supernovae
717:0004-637X
692:0905.4669
638:2045-2322
613:1203.3802
581:0035-8711
524:Space.com
505:0004-6361
397:1365-2966
378:1301.3092
346:202734402
338:1538-4357
220:0035-8711
193:1402.4814
99:starburst
21:quenching
742:Galaxies
473:: A153.
416:phys.org
269:phys.org
115:spheroid
101:galaxy.
697:Bibcode
658:July 5,
618:Bibcode
485:Bibcode
446:July 5,
316:Bibcode
246:July 5,
198:Bibcode
149:on the
125:In the
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29:galaxy
687:arXiv
608:arXiv
557:arXiv
475:arXiv
373:arXiv
342:S2CID
306:arXiv
188:arXiv
113:to a
713:ISSN
660:2024
634:ISSN
577:ISSN
501:ISSN
448:2024
393:ISSN
334:ISSN
248:2024
216:ISSN
111:disk
58:jets
705:doi
683:707
626:doi
567:doi
553:490
493:doi
471:652
383:doi
369:433
324:doi
302:897
206:doi
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