A Wildly Flickering Jet in the Black Hole X-Ray Binary MAXI J1535–571

Maria Cristina Baglio; David M.  Russell; Piergiorgio Casella; Hind Al Noori; Aisha Al Yazeedi; T. Belloni; David A. H. Buckley; Marion Cadolle Bel; Chiara Ceccobello; Stephane Corbel; F. Coti Zelati; María Díaz Trigo; R. P. Fender; Elena Gallo; Pashak Gandhi; Jeroen Homan; Karri L.L. Koljonen; Fraser Lewis; Thomas J.  Maccarone; Julien Malzac; Sera Markoff; James C. A. Miller-Jones; Kieran O'Brien; Thomas D. Russell; Payaswini Saikia; Tariq Shahbaz; Greg R. Sivakoff; Roberto Soria; Vincenzo Testa; Alexandra J. Tetarenko; Mario E. van den Ancker; Federico Maria Vincentelli

doi:10.3847/1538-4357/aae532

A Wildly Flickering Jet in the Black Hole X-Ray Binary MAXI J1535–571

Maria Cristina Baglio
, David M. Russell
, Piergiorgio Casella
, Hind Al Noori
, Aisha Al Yazeedi
, T. Belloni
, David A. H. Buckley
, Marion Cadolle Bel
, Chiara Ceccobello
, Stephane Corbel
, F. Coti Zelati
, María Díaz Trigo
, R. P. Fender
, Elena Gallo
, Pashak Gandhi
, Jeroen Homan
, Karri L.L. Koljonen
, Fraser Lewis
, Thomas J. Maccarone
, Julien Malzac

Sera Markoff, James C. A. Miller-Jones, Kieran O'Brien, Thomas D. Russell, Payaswini Saikia, Tariq Shahbaz, Greg R. Sivakoff, Roberto Soria, Vincenzo Testa, Alexandra J. Tetarenko, Mario E. van den Ancker, Federico Maria Vincentelli

Research output: Contribution to journal › Article › peer-review

29 Citations (Scopus)

Abstract

We report on the results of optical, near-infrared (NIR), and mid-infrared observations of the black hole X-ray binary candidate (BHB) MAXI J1535–571 during its 2017/2018 outburst. During the first part of the outburst (MJD 58004–58012), the source shows an optical–NIR spectrum that is consistent with an optically thin synchrotron power law from a jet. After MJD 58015, however, the source faded considerably, the drop in flux being much more evident at lower frequencies. Before the fading, we measure a dereddened flux density of ≳100 mJy in the mid-infrared, making MAXI J1535–571 one of the brightest mid-infrared BHBs known so far. A significant softening of the X-ray spectrum is evident contemporaneous with the infrared fade. We interpret it as being due to the suppression of the jet emission, similar to the accretion–ejection coupling seen in other BHBs. However, MAXI J1535–571 did not transition smoothly to the soft state, instead showing X-ray hardness deviations associated with infrared flaring. We also present the first mid-IR variability study of a BHB on minute timescales, with a fractional rms variability of the light curves of ∼15%–22%, which is similar to that expected from the internal shock jet model, and much higher than the optical fractional rms (≲7%). These results represent an excellent case of multiwavelength jet spectral timing and demonstrate how rich, multiwavelength time-resolved data of X-ray binaries over accretion state transitions can help in refining models of the disk–jet connection and jet launching in these systems.

Original language	English
Article number	114
Number of pages	15
Journal	The Astrophysical Journal
Volume	867
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/aae532
Publication status	Published - 6 Nov 2018
Externally published	Yes

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Baglio, M. C., Russell, D. M., Casella, P., Al Noori, H., Al Yazeedi, A., Belloni, T., Buckley, D. A. H., Bel, M. C., Ceccobello, C., Corbel, S., Zelati, F. C., Trigo, M. D., Fender, R. P., Gallo, E., Gandhi, P., Homan, J., Koljonen, K. L. L., Lewis, F., Maccarone, T. J., ... Vincentelli, F. M. (2018). A Wildly Flickering Jet in the Black Hole X-Ray Binary MAXI J1535–571. The Astrophysical Journal, 867(2), Article 114. https://doi.org/10.3847/1538-4357/aae532

Baglio, MC, Russell, DM, Casella, P, Al Noori, H, Al Yazeedi, A, Belloni, T, Buckley, DAH, Bel, MC, Ceccobello, C, Corbel, S, Zelati, FC, Trigo, MD, Fender, RP, Gallo, E, Gandhi, P, Homan, J, Koljonen, KLL, Lewis, F, Maccarone, TJ, Malzac, J, Markoff, S, Miller-Jones, JCA, O'Brien, K, Russell, TD, Saikia, P, Shahbaz, T, Sivakoff, GR, Soria, R, Testa, V, Tetarenko, AJ, van den Ancker, ME & Vincentelli, FM 2018, 'A Wildly Flickering Jet in the Black Hole X-Ray Binary MAXI J1535–571', The Astrophysical Journal, vol. 867, no. 2, 114. https://doi.org/10.3847/1538-4357/aae532

@article{c685d91dd81842b4b44eddb4964e19cc,

title = "A Wildly Flickering Jet in the Black Hole X-Ray Binary MAXI J1535–571",

abstract = "We report on the results of optical, near-infrared (NIR), and mid-infrared observations of the black hole X-ray binary candidate (BHB) MAXI J1535–571 during its 2017/2018 outburst. During the first part of the outburst (MJD 58004–58012), the source shows an optical–NIR spectrum that is consistent with an optically thin synchrotron power law from a jet. After MJD 58015, however, the source faded considerably, the drop in flux being much more evident at lower frequencies. Before the fading, we measure a dereddened flux density of ≳100 mJy in the mid-infrared, making MAXI J1535–571 one of the brightest mid-infrared BHBs known so far. A significant softening of the X-ray spectrum is evident contemporaneous with the infrared fade. We interpret it as being due to the suppression of the jet emission, similar to the accretion–ejection coupling seen in other BHBs. However, MAXI J1535–571 did not transition smoothly to the soft state, instead showing X-ray hardness deviations associated with infrared flaring. We also present the first mid-IR variability study of a BHB on minute timescales, with a fractional rms variability of the light curves of ∼15\%–22\%, which is similar to that expected from the internal shock jet model, and much higher than the optical fractional rms (≲7\%). These results represent an excellent case of multiwavelength jet spectral timing and demonstrate how rich, multiwavelength time-resolved data of X-ray binaries over accretion state transitions can help in refining models of the disk–jet connection and jet launching in these systems.",

author = "Baglio, \{Maria Cristina\} and Russell, \{David M.\} and Piergiorgio Casella and \{Al Noori\}, Hind and \{Al Yazeedi\}, Aisha and T. Belloni and Buckley, \{David A. H.\} and Bel, \{Marion Cadolle\} and Chiara Ceccobello and Stephane Corbel and Zelati, \{F. Coti\} and Trigo, \{Mar{\'i}a D{\'i}az\} and Fender, \{R. P.\} and Elena Gallo and Pashak Gandhi and Jeroen Homan and Koljonen, \{Karri L.L.\} and Fraser Lewis and Maccarone, \{Thomas J.\} and Julien Malzac and Sera Markoff and Miller-Jones, \{James C. A.\} and Kieran O'Brien and Russell, \{Thomas D.\} and Payaswini Saikia and Tariq Shahbaz and Sivakoff, \{Greg R.\} and Roberto Soria and Vincenzo Testa and Tetarenko, \{Alexandra J.\} and \{van den Ancker\}, \{Mario E.\} and Vincentelli, \{Federico Maria\}",

year = "2018",

month = nov,

day = "6",

doi = "10.3847/1538-4357/aae532",

language = "English",

volume = "867",

journal = "The Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "2",

}

TY - JOUR

T1 - A Wildly Flickering Jet in the Black Hole X-Ray Binary MAXI J1535–571

AU - Baglio, Maria Cristina

AU - Russell, David M.

AU - Casella, Piergiorgio

AU - Al Noori, Hind

AU - Al Yazeedi, Aisha

AU - Belloni, T.

AU - Buckley, David A. H.

AU - Bel, Marion Cadolle

AU - Ceccobello, Chiara

AU - Corbel, Stephane

AU - Zelati, F. Coti

AU - Trigo, María Díaz

AU - Fender, R. P.

AU - Gallo, Elena

AU - Gandhi, Pashak

AU - Homan, Jeroen

AU - Koljonen, Karri L.L.

AU - Lewis, Fraser

AU - Maccarone, Thomas J.

AU - Malzac, Julien

AU - Markoff, Sera

AU - Miller-Jones, James C. A.

AU - O'Brien, Kieran

AU - Russell, Thomas D.

AU - Saikia, Payaswini

AU - Shahbaz, Tariq

AU - Sivakoff, Greg R.

AU - Soria, Roberto

AU - Testa, Vincenzo

AU - Tetarenko, Alexandra J.

AU - van den Ancker, Mario E.

AU - Vincentelli, Federico Maria

PY - 2018/11/6

Y1 - 2018/11/6

N2 - We report on the results of optical, near-infrared (NIR), and mid-infrared observations of the black hole X-ray binary candidate (BHB) MAXI J1535–571 during its 2017/2018 outburst. During the first part of the outburst (MJD 58004–58012), the source shows an optical–NIR spectrum that is consistent with an optically thin synchrotron power law from a jet. After MJD 58015, however, the source faded considerably, the drop in flux being much more evident at lower frequencies. Before the fading, we measure a dereddened flux density of ≳100 mJy in the mid-infrared, making MAXI J1535–571 one of the brightest mid-infrared BHBs known so far. A significant softening of the X-ray spectrum is evident contemporaneous with the infrared fade. We interpret it as being due to the suppression of the jet emission, similar to the accretion–ejection coupling seen in other BHBs. However, MAXI J1535–571 did not transition smoothly to the soft state, instead showing X-ray hardness deviations associated with infrared flaring. We also present the first mid-IR variability study of a BHB on minute timescales, with a fractional rms variability of the light curves of ∼15%–22%, which is similar to that expected from the internal shock jet model, and much higher than the optical fractional rms (≲7%). These results represent an excellent case of multiwavelength jet spectral timing and demonstrate how rich, multiwavelength time-resolved data of X-ray binaries over accretion state transitions can help in refining models of the disk–jet connection and jet launching in these systems.

AB - We report on the results of optical, near-infrared (NIR), and mid-infrared observations of the black hole X-ray binary candidate (BHB) MAXI J1535–571 during its 2017/2018 outburst. During the first part of the outburst (MJD 58004–58012), the source shows an optical–NIR spectrum that is consistent with an optically thin synchrotron power law from a jet. After MJD 58015, however, the source faded considerably, the drop in flux being much more evident at lower frequencies. Before the fading, we measure a dereddened flux density of ≳100 mJy in the mid-infrared, making MAXI J1535–571 one of the brightest mid-infrared BHBs known so far. A significant softening of the X-ray spectrum is evident contemporaneous with the infrared fade. We interpret it as being due to the suppression of the jet emission, similar to the accretion–ejection coupling seen in other BHBs. However, MAXI J1535–571 did not transition smoothly to the soft state, instead showing X-ray hardness deviations associated with infrared flaring. We also present the first mid-IR variability study of a BHB on minute timescales, with a fractional rms variability of the light curves of ∼15%–22%, which is similar to that expected from the internal shock jet model, and much higher than the optical fractional rms (≲7%). These results represent an excellent case of multiwavelength jet spectral timing and demonstrate how rich, multiwavelength time-resolved data of X-ray binaries over accretion state transitions can help in refining models of the disk–jet connection and jet launching in these systems.

UR - http://dx.doi.org/10.3847/1538-4357/aae532

U2 - 10.3847/1538-4357/aae532

DO - 10.3847/1538-4357/aae532

M3 - Article

SN - 0004-637X

VL - 867

JO - The Astrophysical Journal

JF - The Astrophysical Journal

IS - 2

M1 - 114

ER -

A Wildly Flickering Jet in the Black Hole X-Ray Binary MAXI J1535–571

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