Rapid jet production and suppression during fast state transitions in the black hole X-ray binary MAXI J1348$-$630
Rapid jet production and suppression during fast state transitions in the black hole X-ray binary MAXI J1348$-$630
Black hole X-ray binaries (BH XRBs) launch powerful relativistic jets during bright outburst phases. The properties of these outflows change dramatically between different spectral/accretion states. Compact jets are observed during the hard state and are quenched during the soft state, while discrete ejecta are mainly launched during the hard-to-soft state transition. Currently, we do not understand what triggers the formation/destruction of compact jets or the launch of discrete ejecta. In this context, finding a unique link between the jet evolution and the properties of the X-ray emission, such as its fast variability, would imply major progress in our understanding of the fundamental mechanisms that drive relativistic outflows in BH XRBs. Here we show that a brief, strong radio re-brightening during a predominantly soft state of the BH XRB MAXI J1348$-$630 was contemporaneous with a significant increase in the X-ray rms variability observed with NICER in 2019. During this phase, the variability displayed significant changes and, at the same time, MAXI J1348$-$630 launched two relativistic discrete ejecta that we detected with the MeerKAT and ATCA radio-interferometers. We propose that short-lived compact jets were reactivated during this excursion to the hard-intermediate state and were switched off before the ejecta launch, a behavior that has been very rarely observed in these systems. Interestingly, with the caveat of gaps in our radio and X-ray coverage, we suggest a tentative correspondence between the launch of ejecta and the drop in X-ray rms variability in this source, while other typical X-ray signatures associated with discrete ejections are not detected. We discuss how these results provide us with insights into the complex dynamic coupling between the jets and hot corona in BH XRBs.
astro-ph.HE
Carotenuto, F.
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Zhang, L.
48e46817-0c3a-46fc-a919-7385c7867e40
Altamirano, D.
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Casella, P.
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Corbel, S.
e3b71bc3-60a6-4659-aa36-5973970ce645
Miller-Jones, J.C.A.
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Carotenuto, F.
1c9fbe02-7812-4f70-9015-dd8360656ae4
Zhang, L.
48e46817-0c3a-46fc-a919-7385c7867e40
Altamirano, D.
d5ccdb09-0b71-4303-9538-05b467be075b
Casella, P.
a28f06ae-c091-4b57-b2a0-c7b247329868
Corbel, S.
e3b71bc3-60a6-4659-aa36-5973970ce645
Miller-Jones, J.C.A.
51ba89da-7869-4bf6-ba1a-6c9afb09c674
Carotenuto, F., Zhang, L., Altamirano, D., Casella, P., Corbel, S. and Miller-Jones, J.C.A.
(2026)
Rapid jet production and suppression during fast state transitions in the black hole X-ray binary MAXI J1348$-$630.
Astronomy & Astrophysics, 707, [A151].
(doi:10.1051/0004-6361/202557140).
Abstract
Black hole X-ray binaries (BH XRBs) launch powerful relativistic jets during bright outburst phases. The properties of these outflows change dramatically between different spectral/accretion states. Compact jets are observed during the hard state and are quenched during the soft state, while discrete ejecta are mainly launched during the hard-to-soft state transition. Currently, we do not understand what triggers the formation/destruction of compact jets or the launch of discrete ejecta. In this context, finding a unique link between the jet evolution and the properties of the X-ray emission, such as its fast variability, would imply major progress in our understanding of the fundamental mechanisms that drive relativistic outflows in BH XRBs. Here we show that a brief, strong radio re-brightening during a predominantly soft state of the BH XRB MAXI J1348$-$630 was contemporaneous with a significant increase in the X-ray rms variability observed with NICER in 2019. During this phase, the variability displayed significant changes and, at the same time, MAXI J1348$-$630 launched two relativistic discrete ejecta that we detected with the MeerKAT and ATCA radio-interferometers. We propose that short-lived compact jets were reactivated during this excursion to the hard-intermediate state and were switched off before the ejecta launch, a behavior that has been very rarely observed in these systems. Interestingly, with the caveat of gaps in our radio and X-ray coverage, we suggest a tentative correspondence between the launch of ejecta and the drop in X-ray rms variability in this source, while other typical X-ray signatures associated with discrete ejections are not detected. We discuss how these results provide us with insights into the complex dynamic coupling between the jets and hot corona in BH XRBs.
Text
2509.06487v2
- Author's Original
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aa57140-25
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Accepted/In Press date: 20 January 2026
e-pub ahead of print date: 3 March 2026
Keywords:
astro-ph.HE
Identifiers
Local EPrints ID: 511778
URI: http://eprints.soton.ac.uk/id/eprint/511778
ISSN: 0004-6361
PURE UUID: 49a5946a-d2d3-496d-9e75-e925c3220239
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Date deposited: 02 Jun 2026 16:39
Last modified: 03 Jun 2026 01:47
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Contributors
Author:
F. Carotenuto
Author:
L. Zhang
Author:
P. Casella
Author:
S. Corbel
Author:
J.C.A. Miller-Jones
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