A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4

Research output: Contribution to journalJournal articleResearchpeer-review

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A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4. / Puglisi, Annagrazia; Daddi, Emanuele; Brusa, Marcella; Bournaud, Frederic; Fensch, Jeremy; Liu, Daizhong; Delvecchio, Ivan; Calabro, Antonello; Circosta, Chiara; Valentino, Francesco; Perna, Michele; Jin, Shuowen; Enia, Andrea; Mancini, Chiara; Rodighiero, Giulia.

In: Nature Astronomy, Vol. 5, 11.01.2021, p. 319-330.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Puglisi, A, Daddi, E, Brusa, M, Bournaud, F, Fensch, J, Liu, D, Delvecchio, I, Calabro, A, Circosta, C, Valentino, F, Perna, M, Jin, S, Enia, A, Mancini, C & Rodighiero, G 2021, 'A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4', Nature Astronomy, vol. 5, pp. 319-330. https://doi.org/10.1038/s41550-020-01268-x

APA

Puglisi, A., Daddi, E., Brusa, M., Bournaud, F., Fensch, J., Liu, D., Delvecchio, I., Calabro, A., Circosta, C., Valentino, F., Perna, M., Jin, S., Enia, A., Mancini, C., & Rodighiero, G. (2021). A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4. Nature Astronomy, 5, 319-330. https://doi.org/10.1038/s41550-020-01268-x

Vancouver

Puglisi A, Daddi E, Brusa M, Bournaud F, Fensch J, Liu D et al. A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4. Nature Astronomy. 2021 Jan 11;5:319-330. https://doi.org/10.1038/s41550-020-01268-x

Author

Puglisi, Annagrazia ; Daddi, Emanuele ; Brusa, Marcella ; Bournaud, Frederic ; Fensch, Jeremy ; Liu, Daizhong ; Delvecchio, Ivan ; Calabro, Antonello ; Circosta, Chiara ; Valentino, Francesco ; Perna, Michele ; Jin, Shuowen ; Enia, Andrea ; Mancini, Chiara ; Rodighiero, Giulia. / A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4. In: Nature Astronomy. 2021 ; Vol. 5. pp. 319-330.

Bibtex

@article{d3c07ed82f8c47b0bf62ba2004e00e0e,
title = "A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4",
abstract = "Feedback-driven winds from star formation or active galactic nuclei might be a relevant channel for the abrupt quenching of star formation in massive galaxies. However, both observations and simulations support the idea that these processes are non-conflictingly co-evolving and self-regulating. Furthermore, evidence of disruptive events that are capable of fast quenching is rare, and constraints on their statistical prevalence are lacking. Here we present a massive starburst galaxy at redshift z = 1.4, which is ejecting 46 +/- 13% of its molecular gas mass at a startling rate of greater than or similar to 10,000 M-circle dot yr(-1). A broad component that is red-shifted from the galaxy emission is detected in four (low and high J) CO and [C i] transitions and in the ionized phase, which ensures a robust estimate of the expelled gas mass. The implied statistics suggest that similar events are potentially a major star-formation quenching channel. However, our observations provide compelling evidence that this is not a feedback-driven wind, but rather material from a merger that has been probably tidally ejected. This finding challenges some literature studies in which the role of feedback-driven winds might be overstated.",
keywords = "ACTIVE GALACTIC NUCLEI, TIDAL DWARF GALAXIES, STAR-FORMATION, MOLECULAR GAS, BLACK-HOLES, DRIVEN OUTFLOWS, MAIN-SEQUENCE, COLD STREAMS, AGN, FEEDBACK",
author = "Annagrazia Puglisi and Emanuele Daddi and Marcella Brusa and Frederic Bournaud and Jeremy Fensch and Daizhong Liu and Ivan Delvecchio and Antonello Calabro and Chiara Circosta and Francesco Valentino and Michele Perna and Shuowen Jin and Andrea Enia and Chiara Mancini and Giulia Rodighiero",
year = "2021",
month = jan,
day = "11",
doi = "10.1038/s41550-020-01268-x",
language = "English",
volume = "5",
pages = "319--330",
journal = "Nature Astronomy",
issn = "2397-3366",
publisher = "nature publishing group",

}

RIS

TY - JOUR

T1 - A titanic interstellar medium ejection from a massive starburst galaxy at redshift 1.4

AU - Puglisi, Annagrazia

AU - Daddi, Emanuele

AU - Brusa, Marcella

AU - Bournaud, Frederic

AU - Fensch, Jeremy

AU - Liu, Daizhong

AU - Delvecchio, Ivan

AU - Calabro, Antonello

AU - Circosta, Chiara

AU - Valentino, Francesco

AU - Perna, Michele

AU - Jin, Shuowen

AU - Enia, Andrea

AU - Mancini, Chiara

AU - Rodighiero, Giulia

PY - 2021/1/11

Y1 - 2021/1/11

N2 - Feedback-driven winds from star formation or active galactic nuclei might be a relevant channel for the abrupt quenching of star formation in massive galaxies. However, both observations and simulations support the idea that these processes are non-conflictingly co-evolving and self-regulating. Furthermore, evidence of disruptive events that are capable of fast quenching is rare, and constraints on their statistical prevalence are lacking. Here we present a massive starburst galaxy at redshift z = 1.4, which is ejecting 46 +/- 13% of its molecular gas mass at a startling rate of greater than or similar to 10,000 M-circle dot yr(-1). A broad component that is red-shifted from the galaxy emission is detected in four (low and high J) CO and [C i] transitions and in the ionized phase, which ensures a robust estimate of the expelled gas mass. The implied statistics suggest that similar events are potentially a major star-formation quenching channel. However, our observations provide compelling evidence that this is not a feedback-driven wind, but rather material from a merger that has been probably tidally ejected. This finding challenges some literature studies in which the role of feedback-driven winds might be overstated.

AB - Feedback-driven winds from star formation or active galactic nuclei might be a relevant channel for the abrupt quenching of star formation in massive galaxies. However, both observations and simulations support the idea that these processes are non-conflictingly co-evolving and self-regulating. Furthermore, evidence of disruptive events that are capable of fast quenching is rare, and constraints on their statistical prevalence are lacking. Here we present a massive starburst galaxy at redshift z = 1.4, which is ejecting 46 +/- 13% of its molecular gas mass at a startling rate of greater than or similar to 10,000 M-circle dot yr(-1). A broad component that is red-shifted from the galaxy emission is detected in four (low and high J) CO and [C i] transitions and in the ionized phase, which ensures a robust estimate of the expelled gas mass. The implied statistics suggest that similar events are potentially a major star-formation quenching channel. However, our observations provide compelling evidence that this is not a feedback-driven wind, but rather material from a merger that has been probably tidally ejected. This finding challenges some literature studies in which the role of feedback-driven winds might be overstated.

KW - ACTIVE GALACTIC NUCLEI

KW - TIDAL DWARF GALAXIES

KW - STAR-FORMATION

KW - MOLECULAR GAS

KW - BLACK-HOLES

KW - DRIVEN OUTFLOWS

KW - MAIN-SEQUENCE

KW - COLD STREAMS

KW - AGN

KW - FEEDBACK

U2 - 10.1038/s41550-020-01268-x

DO - 10.1038/s41550-020-01268-x

M3 - Journal article

VL - 5

SP - 319

EP - 330

JO - Nature Astronomy

JF - Nature Astronomy

SN - 2397-3366

ER -

ID: 257746993