A very luminous jet from the disruption of a star by a massive black hole: [Inkl. Correction]

Igor Andreoni; Michael W. Coughlin; Daniel A. Perley; Yuhan Yao; Wenbin Lu; S. Bradley Cenko; Harsh Kumar; Shreya Anand; Anna Y. Q. Ho; Mansi M. Kasliwal; Antonio de Ugarte Postigo; Ana Sagues-Carracedo; Steve Schulze; D. Alexander Kann; S. R. Kulkarni; Jesper Sollerman; Nial Tanvir; Armin Rest; Luca Izzo; Jean J. Somalwar; David L. Kaplan; Tomas Ahumada; G. C. Anupama; Katie Auchettl; Sudhanshu Barway; Eric C. Bellm; Varun Bhalerao; Joshua S. Bloom; Michael Bremer; Mattia Bulla; Eric Burns; Sergio Campana; Poonam Chandra; Panos Charalampopoulos; Jeff Cooke; Valerio D'Elia; Kaustav Kashyap Das; Dougal Dobie; Jose Feliciano Agui Fernandez; James Freeburn; Cristoffer Fremling; Suvi Gezari; Simon Goode; Matthew J. Graham; Erica Hammerstein; Viraj R. Karambelkar; Charles D. Kilpatrick; Erik C. Kool; Melanie Krips; Russ R. Laher; Giorgos Leloudas; Andrew Levan; Michael J. Lundquist; Ashish A. Mahabal; Michael S. Medford; M. Coleman Miller; Anais Moller; Kunal P. Mooley; A. J. Nayana; Guy Nir; Peter T. H. Pang; Emmy Paraskeva; Richard A. Perley; Glen Petitpas; Miika Pursiainen; Vikram Ravi; Ryan Ridden-Harper; Reed Riddle; Mickael Rigault; Antonio C. Rodriguez; Ben Rusholme; Yashvi Sharma; I. A. Smith; Robert D. Stein; Christina Thone; Aaron Tohuvavohu; Frank Valdes; Jan van Roestel; Susanna D. Vergani; Qinan Wang; Jielai Zhang

doi:10.1038/s41586-022-05465-8

A very luminous jet from the disruption of a star by a massive black hole: [Inkl. Correction]

Igor Andreoni, Michael W. Coughlin, Daniel A. Perley, Yuhan Yao, Wenbin Lu, S. Bradley Cenko, Harsh Kumar, Shreya Anand, Anna Y. Q. Ho, Mansi M. Kasliwal, Antonio de Ugarte Postigo, Ana Sagues-Carracedo, Steve Schulze, D. Alexander Kann, S. R. Kulkarni, Jesper Sollerman, Nial Tanvir, Armin Rest, Luca Izzo, Jean J. SomalwarDavid L. Kaplan, Tomas Ahumada, G. C. Anupama, Katie Auchettl, Sudhanshu Barway, Eric C. Bellm, Varun Bhalerao, Joshua S. Bloom, Michael Bremer, Mattia Bulla, Eric Burns, Sergio Campana, Poonam Chandra, Panos Charalampopoulos, Jeff Cooke, Valerio D'Elia, Kaustav Kashyap Das, Dougal Dobie, Jose Feliciano Agui Fernandez, James Freeburn, Cristoffer Fremling, Suvi Gezari, Simon Goode, Matthew J. Graham, Erica Hammerstein, Viraj R. Karambelkar, Charles D. Kilpatrick, Erik C. Kool, Melanie Krips, Russ R. Laher, Giorgos Leloudas, Andrew Levan, Michael J. Lundquist, Ashish A. Mahabal, Michael S. Medford, M. Coleman Miller, Anais Moller, Kunal P. Mooley, A. J. Nayana, Guy Nir, Peter T. H. Pang, Emmy Paraskeva, Richard A. Perley, Glen Petitpas, Miika Pursiainen, Vikram Ravi, Ryan Ridden-Harper, Reed Riddle, Mickael Rigault, Antonio C. Rodriguez, Ben Rusholme, Yashvi Sharma, I. A. Smith, Robert D. Stein, Christina Thone, Aaron Tohuvavohu, Frank Valdes, Jan van Roestel, Susanna D. Vergani, Qinan Wang, Jielai Zhang

DARK

Research output: Contribution to journal › Journal article › Research › peer-review

58 Citations (Scopus)

Abstract

Tidal disruption events (TDEs) are bursts of electromagnetic energy that are released when supermassive black holes at the centres of galaxies violently disrupt a star that passes too close(1). TDEs provide a window through which to study accretion onto supermassive black holes; in some rare cases, this accretion leads to launching of a relativistic jet(2-9), but the necessary conditions are not fully understood. The best-studied jetted TDE so far is Swift J1644+57, which was discovered in gamma-rays, but was too obscured by dust to be seen at optical wavelengths. Here we report the optical detection of AT2022cmc, a rapidly fading source at cosmological distance (redshift z = 1.19325) the unique light curve of which transitioned into a luminous plateau within days. Observations of a bright counterpart at other wavelengths, including X-ray, submillimetre and radio, supports the interpretation of AT2022cmc as a jetted TDE containing a synchrotron 'afterglow', probably launched by a supermassive black hole with spin greater than approximately 0.3. Using four years of Zwicky Transient Facility(10) survey data, we calculate a rate of 0.02(-0.01)(+0.04) Gpc(-3) yr(-1) for on-axis jetted TDEs on the basis of the luminous, fast-fading red component, thus providing a measurement complementary to the rates derived from X-ray and radio observations(11). Correcting for the beaming angle effects, this rate confirms that approximately 1 per cent of TDEs have relativistic jets. Optical surveys can use AT2022cmc as a prototype to unveil a population of jetted TDEs.

Original language	English
Journal	Nature
Volume	612
Issue number	7940
Pages (from-to)	430-434
Number of pages	4
ISSN	0028-0836
DOIs	https://doi.org/10.1038/s41586-022-05465-8
Publication status	Published - 15 Dec 2022

Bibliographical note

Correction: 10.1038/s41586-023-05699-0
Link: https://www.nature.com/articles/s41586-023-05699-0

Keywords

ZWICKY TRANSIENT FACILITY
TIDAL DISRUPTION
X-RAY
ULTRAVIOLET TRANSIENT
RELATIVISTIC JET
PRE-SWIFT
MILLIMETER
SUPERNOVA
STELLAR
SCUBA-2

Access to Document

10.1038/s41586-022-05465-8

https://arxiv.org/pdf/2211.16530.pdf

Cite this

Andreoni, I., Coughlin, M. W., Perley, D. A., Yao, Y., Lu, W., Cenko, S. B., Kumar, H., Anand, S., Ho, A. Y. Q., Kasliwal, M. M., Postigo, A. D. U., Sagues-Carracedo, A., Schulze, S., Kann, D. A., Kulkarni, S. R., Sollerman, J., Tanvir, N., Rest, A., Izzo, L., ... Zhang, J. (2022). A very luminous jet from the disruption of a star by a massive black hole: [Inkl. Correction]. Nature, 612(7940), 430-434. https://doi.org/10.1038/s41586-022-05465-8

A very luminous jet from the disruption of a star by a massive black hole : [Inkl. Correction]. / Andreoni, Igor; Coughlin, Michael W.; Perley, Daniel A.; Yao, Yuhan; Lu, Wenbin; Cenko, S. Bradley; Kumar, Harsh; Anand, Shreya; Ho, Anna Y. Q.; Kasliwal, Mansi M.; Postigo, Antonio de Ugarte; Sagues-Carracedo, Ana; Schulze, Steve; Kann, D. Alexander; Kulkarni, S. R.; Sollerman, Jesper; Tanvir, Nial; Rest, Armin; Izzo, Luca; Somalwar, Jean J.; Kaplan, David L.; Ahumada, Tomas; Anupama, G. C.; Auchettl, Katie; Barway, Sudhanshu; Bellm, Eric C.; Bhalerao, Varun; Bloom, Joshua S.; Bremer, Michael; Bulla, Mattia; Burns, Eric; Campana, Sergio; Chandra, Poonam; Charalampopoulos, Panos; Cooke, Jeff; D'Elia, Valerio; Das, Kaustav Kashyap; Dobie, Dougal; Fernandez, Jose Feliciano Agui; Freeburn, James; Fremling, Cristoffer; Gezari, Suvi; Goode, Simon; Graham, Matthew J.; Hammerstein, Erica; Karambelkar, Viraj R.; Kilpatrick, Charles D.; Kool, Erik C.; Krips, Melanie; Laher, Russ R.; Leloudas, Giorgos; Levan, Andrew; Lundquist, Michael J.; Mahabal, Ashish A.; Medford, Michael S.; Miller, M. Coleman; Moller, Anais; Mooley, Kunal P.; Nayana, A. J.; Nir, Guy; Pang, Peter T. H.; Paraskeva, Emmy; Perley, Richard A.; Petitpas, Glen; Pursiainen, Miika; Ravi, Vikram; Ridden-Harper, Ryan; Riddle, Reed; Rigault, Mickael; Rodriguez, Antonio C.; Rusholme, Ben; Sharma, Yashvi; Smith, I. A.; Stein, Robert D.; Thone, Christina; Tohuvavohu, Aaron; Valdes, Frank; van Roestel, Jan; Vergani, Susanna D.; Wang, Qinan; Zhang, Jielai.

In: Nature, Vol. 612, No. 7940, 15.12.2022, p. 430-434.

Research output: Contribution to journal › Journal article › Research › peer-review

Andreoni, I, Coughlin, MW, Perley, DA, Yao, Y, Lu, W, Cenko, SB, Kumar, H, Anand, S, Ho, AYQ, Kasliwal, MM, Postigo, ADU, Sagues-Carracedo, A, Schulze, S, Kann, DA, Kulkarni, SR, Sollerman, J, Tanvir, N, Rest, A, Izzo, L, Somalwar, JJ, Kaplan, DL, Ahumada, T, Anupama, GC, Auchettl, K, Barway, S, Bellm, EC, Bhalerao, V, Bloom, JS, Bremer, M, Bulla, M, Burns, E, Campana, S, Chandra, P, Charalampopoulos, P, Cooke, J, D'Elia, V, Das, KK, Dobie, D, Fernandez, JFA, Freeburn, J, Fremling, C, Gezari, S, Goode, S, Graham, MJ, Hammerstein, E, Karambelkar, VR, Kilpatrick, CD, Kool, EC, Krips, M, Laher, RR, Leloudas, G, Levan, A, Lundquist, MJ, Mahabal, AA, Medford, MS, Miller, MC, Moller, A, Mooley, KP, Nayana, AJ, Nir, G, Pang, PTH, Paraskeva, E, Perley, RA, Petitpas, G, Pursiainen, M, Ravi, V, Ridden-Harper, R, Riddle, R, Rigault, M, Rodriguez, AC, Rusholme, B, Sharma, Y, Smith, IA, Stein, RD, Thone, C, Tohuvavohu, A, Valdes, F, van Roestel, J, Vergani, SD, Wang, Q & Zhang, J 2022, 'A very luminous jet from the disruption of a star by a massive black hole: [Inkl. Correction]', Nature, vol. 612, no. 7940, pp. 430-434. https://doi.org/10.1038/s41586-022-05465-8

Andreoni, Igor ; Coughlin, Michael W. ; Perley, Daniel A. ; Yao, Yuhan ; Lu, Wenbin ; Cenko, S. Bradley ; Kumar, Harsh ; Anand, Shreya ; Ho, Anna Y. Q. ; Kasliwal, Mansi M. ; Postigo, Antonio de Ugarte ; Sagues-Carracedo, Ana ; Schulze, Steve ; Kann, D. Alexander ; Kulkarni, S. R. ; Sollerman, Jesper ; Tanvir, Nial ; Rest, Armin ; Izzo, Luca ; Somalwar, Jean J. ; Kaplan, David L. ; Ahumada, Tomas ; Anupama, G. C. ; Auchettl, Katie ; Barway, Sudhanshu ; Bellm, Eric C. ; Bhalerao, Varun ; Bloom, Joshua S. ; Bremer, Michael ; Bulla, Mattia ; Burns, Eric ; Campana, Sergio ; Chandra, Poonam ; Charalampopoulos, Panos ; Cooke, Jeff ; D'Elia, Valerio ; Das, Kaustav Kashyap ; Dobie, Dougal ; Fernandez, Jose Feliciano Agui ; Freeburn, James ; Fremling, Cristoffer ; Gezari, Suvi ; Goode, Simon ; Graham, Matthew J. ; Hammerstein, Erica ; Karambelkar, Viraj R. ; Kilpatrick, Charles D. ; Kool, Erik C. ; Krips, Melanie ; Laher, Russ R. ; Leloudas, Giorgos ; Levan, Andrew ; Lundquist, Michael J. ; Mahabal, Ashish A. ; Medford, Michael S. ; Miller, M. Coleman ; Moller, Anais ; Mooley, Kunal P. ; Nayana, A. J. ; Nir, Guy ; Pang, Peter T. H. ; Paraskeva, Emmy ; Perley, Richard A. ; Petitpas, Glen ; Pursiainen, Miika ; Ravi, Vikram ; Ridden-Harper, Ryan ; Riddle, Reed ; Rigault, Mickael ; Rodriguez, Antonio C. ; Rusholme, Ben ; Sharma, Yashvi ; Smith, I. A. ; Stein, Robert D. ; Thone, Christina ; Tohuvavohu, Aaron ; Valdes, Frank ; van Roestel, Jan ; Vergani, Susanna D. ; Wang, Qinan ; Zhang, Jielai. / A very luminous jet from the disruption of a star by a massive black hole : [Inkl. Correction]. In: Nature. 2022 ; Vol. 612, No. 7940. pp. 430-434.

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title = "A very luminous jet from the disruption of a star by a massive black hole: [Inkl. Correction]",

abstract = "Tidal disruption events (TDEs) are bursts of electromagnetic energy that are released when supermassive black holes at the centres of galaxies violently disrupt a star that passes too close(1). TDEs provide a window through which to study accretion onto supermassive black holes; in some rare cases, this accretion leads to launching of a relativistic jet(2-9), but the necessary conditions are not fully understood. The best-studied jetted TDE so far is Swift J1644+57, which was discovered in gamma-rays, but was too obscured by dust to be seen at optical wavelengths. Here we report the optical detection of AT2022cmc, a rapidly fading source at cosmological distance (redshift z = 1.19325) the unique light curve of which transitioned into a luminous plateau within days. Observations of a bright counterpart at other wavelengths, including X-ray, submillimetre and radio, supports the interpretation of AT2022cmc as a jetted TDE containing a synchrotron 'afterglow', probably launched by a supermassive black hole with spin greater than approximately 0.3. Using four years of Zwicky Transient Facility(10) survey data, we calculate a rate of 0.02(-0.01)(+0.04) Gpc(-3) yr(-1) for on-axis jetted TDEs on the basis of the luminous, fast-fading red component, thus providing a measurement complementary to the rates derived from X-ray and radio observations(11). Correcting for the beaming angle effects, this rate confirms that approximately 1 per cent of TDEs have relativistic jets. Optical surveys can use AT2022cmc as a prototype to unveil a population of jetted TDEs.",

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author = "Igor Andreoni and Coughlin, {Michael W.} and Perley, {Daniel A.} and Yuhan Yao and Wenbin Lu and Cenko, {S. Bradley} and Harsh Kumar and Shreya Anand and Ho, {Anna Y. Q.} and Kasliwal, {Mansi M.} and Postigo, {Antonio de Ugarte} and Ana Sagues-Carracedo and Steve Schulze and Kann, {D. Alexander} and Kulkarni, {S. R.} and Jesper Sollerman and Nial Tanvir and Armin Rest and Luca Izzo and Somalwar, {Jean J.} and Kaplan, {David L.} and Tomas Ahumada and Anupama, {G. C.} and Katie Auchettl and Sudhanshu Barway and Bellm, {Eric C.} and Varun Bhalerao and Bloom, {Joshua S.} and Michael Bremer and Mattia Bulla and Eric Burns and Sergio Campana and Poonam Chandra and Panos Charalampopoulos and Jeff Cooke and Valerio D'Elia and Das, {Kaustav Kashyap} and Dougal Dobie and Fernandez, {Jose Feliciano Agui} and James Freeburn and Cristoffer Fremling and Suvi Gezari and Simon Goode and Graham, {Matthew J.} and Erica Hammerstein and Karambelkar, {Viraj R.} and Kilpatrick, {Charles D.} and Kool, {Erik C.} and Melanie Krips and Laher, {Russ R.} and Giorgos Leloudas and Andrew Levan and Lundquist, {Michael J.} and Mahabal, {Ashish A.} and Medford, {Michael S.} and Miller, {M. Coleman} and Anais Moller and Mooley, {Kunal P.} and Nayana, {A. J.} and Guy Nir and Pang, {Peter T. H.} and Emmy Paraskeva and Perley, {Richard A.} and Glen Petitpas and Miika Pursiainen and Vikram Ravi and Ryan Ridden-Harper and Reed Riddle and Mickael Rigault and Rodriguez, {Antonio C.} and Ben Rusholme and Yashvi Sharma and Smith, {I. A.} and Stein, {Robert D.} and Christina Thone and Aaron Tohuvavohu and Frank Valdes and {van Roestel}, Jan and Vergani, {Susanna D.} and Qinan Wang and Jielai Zhang",

note = "Correction: 10.1038/s41586-023-05699-0 Link: https://www.nature.com/articles/s41586-023-05699-0",

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month = dec,

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doi = "10.1038/s41586-022-05465-8",

language = "English",

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journal = "Nature",

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T1 - A very luminous jet from the disruption of a star by a massive black hole

T2 - [Inkl. Correction]

AU - Andreoni, Igor

AU - Coughlin, Michael W.

AU - Perley, Daniel A.

AU - Yao, Yuhan

AU - Lu, Wenbin

AU - Cenko, S. Bradley

AU - Kumar, Harsh

AU - Anand, Shreya

AU - Ho, Anna Y. Q.

AU - Kasliwal, Mansi M.

AU - Postigo, Antonio de Ugarte

AU - Sagues-Carracedo, Ana

AU - Schulze, Steve

AU - Kann, D. Alexander

AU - Kulkarni, S. R.

AU - Sollerman, Jesper

AU - Tanvir, Nial

AU - Rest, Armin

AU - Izzo, Luca

AU - Somalwar, Jean J.

AU - Kaplan, David L.

AU - Ahumada, Tomas

AU - Anupama, G. C.

AU - Auchettl, Katie

AU - Barway, Sudhanshu

AU - Bellm, Eric C.

AU - Bhalerao, Varun

AU - Bloom, Joshua S.

AU - Bremer, Michael

AU - Bulla, Mattia

AU - Burns, Eric

AU - Campana, Sergio

AU - Chandra, Poonam

AU - Charalampopoulos, Panos

AU - Cooke, Jeff

AU - D'Elia, Valerio

AU - Das, Kaustav Kashyap

AU - Dobie, Dougal

AU - Fernandez, Jose Feliciano Agui

AU - Freeburn, James

AU - Fremling, Cristoffer

AU - Gezari, Suvi

AU - Goode, Simon

AU - Graham, Matthew J.

AU - Hammerstein, Erica

AU - Karambelkar, Viraj R.

AU - Kilpatrick, Charles D.

AU - Kool, Erik C.

AU - Krips, Melanie

AU - Laher, Russ R.

AU - Leloudas, Giorgos

AU - Levan, Andrew

AU - Lundquist, Michael J.

AU - Mahabal, Ashish A.

AU - Medford, Michael S.

AU - Miller, M. Coleman

AU - Moller, Anais

AU - Mooley, Kunal P.

AU - Nayana, A. J.

AU - Nir, Guy

AU - Pang, Peter T. H.

AU - Paraskeva, Emmy

AU - Perley, Richard A.

AU - Petitpas, Glen

AU - Pursiainen, Miika

AU - Ravi, Vikram

AU - Ridden-Harper, Ryan

AU - Riddle, Reed

AU - Rigault, Mickael

AU - Rodriguez, Antonio C.

AU - Rusholme, Ben

AU - Sharma, Yashvi

AU - Smith, I. A.

AU - Stein, Robert D.

AU - Thone, Christina

AU - Tohuvavohu, Aaron

AU - Valdes, Frank

AU - van Roestel, Jan

AU - Vergani, Susanna D.

AU - Wang, Qinan

AU - Zhang, Jielai

N1 - Correction: 10.1038/s41586-023-05699-0 Link: https://www.nature.com/articles/s41586-023-05699-0

PY - 2022/12/15

Y1 - 2022/12/15

N2 - Tidal disruption events (TDEs) are bursts of electromagnetic energy that are released when supermassive black holes at the centres of galaxies violently disrupt a star that passes too close(1). TDEs provide a window through which to study accretion onto supermassive black holes; in some rare cases, this accretion leads to launching of a relativistic jet(2-9), but the necessary conditions are not fully understood. The best-studied jetted TDE so far is Swift J1644+57, which was discovered in gamma-rays, but was too obscured by dust to be seen at optical wavelengths. Here we report the optical detection of AT2022cmc, a rapidly fading source at cosmological distance (redshift z = 1.19325) the unique light curve of which transitioned into a luminous plateau within days. Observations of a bright counterpart at other wavelengths, including X-ray, submillimetre and radio, supports the interpretation of AT2022cmc as a jetted TDE containing a synchrotron 'afterglow', probably launched by a supermassive black hole with spin greater than approximately 0.3. Using four years of Zwicky Transient Facility(10) survey data, we calculate a rate of 0.02(-0.01)(+0.04) Gpc(-3) yr(-1) for on-axis jetted TDEs on the basis of the luminous, fast-fading red component, thus providing a measurement complementary to the rates derived from X-ray and radio observations(11). Correcting for the beaming angle effects, this rate confirms that approximately 1 per cent of TDEs have relativistic jets. Optical surveys can use AT2022cmc as a prototype to unveil a population of jetted TDEs.

AB - Tidal disruption events (TDEs) are bursts of electromagnetic energy that are released when supermassive black holes at the centres of galaxies violently disrupt a star that passes too close(1). TDEs provide a window through which to study accretion onto supermassive black holes; in some rare cases, this accretion leads to launching of a relativistic jet(2-9), but the necessary conditions are not fully understood. The best-studied jetted TDE so far is Swift J1644+57, which was discovered in gamma-rays, but was too obscured by dust to be seen at optical wavelengths. Here we report the optical detection of AT2022cmc, a rapidly fading source at cosmological distance (redshift z = 1.19325) the unique light curve of which transitioned into a luminous plateau within days. Observations of a bright counterpart at other wavelengths, including X-ray, submillimetre and radio, supports the interpretation of AT2022cmc as a jetted TDE containing a synchrotron 'afterglow', probably launched by a supermassive black hole with spin greater than approximately 0.3. Using four years of Zwicky Transient Facility(10) survey data, we calculate a rate of 0.02(-0.01)(+0.04) Gpc(-3) yr(-1) for on-axis jetted TDEs on the basis of the luminous, fast-fading red component, thus providing a measurement complementary to the rates derived from X-ray and radio observations(11). Correcting for the beaming angle effects, this rate confirms that approximately 1 per cent of TDEs have relativistic jets. Optical surveys can use AT2022cmc as a prototype to unveil a population of jetted TDEs.

KW - ZWICKY TRANSIENT FACILITY

KW - TIDAL DISRUPTION

KW - X-RAY

KW - ULTRAVIOLET TRANSIENT

KW - RELATIVISTIC JET

KW - PRE-SWIFT

KW - MILLIMETER

KW - SUPERNOVA

KW - STELLAR

KW - SCUBA-2

U2 - 10.1038/s41586-022-05465-8

DO - 10.1038/s41586-022-05465-8

M3 - Journal article

C2 - 36450988

VL - 612

SP - 430

EP - 434

JO - Nature

JF - Nature

SN - 0028-0836

IS - 7940

ER -