Gone with the wind: JWST-MIRI unveils a strong outflow from the quiescent stellar-mass black hole A0620-00
Gone with the wind: JWST-MIRI unveils a strong outflow from the quiescent stellar-mass black hole A0620-00
We present new observations of the black hole X-ray binary A0620-00 using the Mid-Infrared (MIR) Instrument on the James Webb Space Telescope, during a state where the X-ray luminosity is 9 orders of magnitude below Eddington, and coordinated with radio, near-infrared, and optical observations. The goal is to understand the nature of the excess MIR emission originally detected by Spitzer redward of 8 μm. The stellar-subtracted MIR spectrum is well modeled by a power law with a spectral index of α = 0.72 ± 0.01, where the flux density scales with frequency as Fν ∝ να. The spectral characteristics, along with rapid variability—a 40% flux flare at 15 μm and 25% achromatic variability in the 5–12 μm range—rule out a circumbinary disk as the source of the MIR excess. The Low Resolution Spectrometer reveals a prominent emission feature at 7.5 μm, resulting from the blend of three hydrogen recombination lines. While the contribution from partially self-absorbed synchrotron radiation cannot be ruled out, we argue that thermal bremsstrahlung from a warm (a few tens of thousands of Kelvin) wind accounts for the MIR excess; the same outflow is responsible for the emission lines. The inferred mass outflow rate indicates that the system’s low luminosity is due to a substantial fraction of the mass supplied by the donor star being expelled through a wind rather than accreted onto the black hole.
astro-ph.HE
Zuo, Zihao
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Cugno, Gabriele
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Michail, Joseph
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Gallo, Elena
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Russell, David M.
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Plotkin, Richard M.
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Zou, Fan
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Baglio, M. Cristina
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Casella, Piergiorgio
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Cowie, Fraser J.
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Fender, Rob
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Gandhi, Poshak
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Markoff, Sera
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Vincentelli, Federico
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Lewis, Fraser
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Miller, Jon M.
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Miller-Jones, James C.A.
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Veledina, Alexandra
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24 September 2025
Zuo, Zihao
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Cugno, Gabriele
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Michail, Joseph
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Gallo, Elena
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Russell, David M.
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Plotkin, Richard M.
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Zou, Fan
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Baglio, M. Cristina
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Casella, Piergiorgio
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Cowie, Fraser J.
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Fender, Rob
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Gandhi, Poshak
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Markoff, Sera
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Vincentelli, Federico
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Lewis, Fraser
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Miller, Jon M.
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Miller-Jones, James C.A.
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Veledina, Alexandra
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Zuo, Zihao, Cugno, Gabriele, Michail, Joseph, Gallo, Elena, Russell, David M., Plotkin, Richard M., Zou, Fan, Baglio, M. Cristina, Casella, Piergiorgio, Cowie, Fraser J., Fender, Rob, Gandhi, Poshak, Markoff, Sera, Vincentelli, Federico, Lewis, Fraser, Miller, Jon M., Miller-Jones, James C.A. and Veledina, Alexandra
(2025)
Gone with the wind: JWST-MIRI unveils a strong outflow from the quiescent stellar-mass black hole A0620-00.
The Astrophysical Journal, 991 (2), [157].
(doi:10.3847/1538-4357/adf6b9).
Abstract
We present new observations of the black hole X-ray binary A0620-00 using the Mid-Infrared (MIR) Instrument on the James Webb Space Telescope, during a state where the X-ray luminosity is 9 orders of magnitude below Eddington, and coordinated with radio, near-infrared, and optical observations. The goal is to understand the nature of the excess MIR emission originally detected by Spitzer redward of 8 μm. The stellar-subtracted MIR spectrum is well modeled by a power law with a spectral index of α = 0.72 ± 0.01, where the flux density scales with frequency as Fν ∝ να. The spectral characteristics, along with rapid variability—a 40% flux flare at 15 μm and 25% achromatic variability in the 5–12 μm range—rule out a circumbinary disk as the source of the MIR excess. The Low Resolution Spectrometer reveals a prominent emission feature at 7.5 μm, resulting from the blend of three hydrogen recombination lines. While the contribution from partially self-absorbed synchrotron radiation cannot be ruled out, we argue that thermal bremsstrahlung from a warm (a few tens of thousands of Kelvin) wind accounts for the MIR excess; the same outflow is responsible for the emission lines. The inferred mass outflow rate indicates that the system’s low luminosity is due to a substantial fraction of the mass supplied by the donor star being expelled through a wind rather than accreted onto the black hole.
Text
2505.23918v1
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Zuo_2025_ApJ_991_157
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Accepted/In Press date: 30 July 2025
Published date: 24 September 2025
Keywords:
astro-ph.HE
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Local EPrints ID: 506721
URI: http://eprints.soton.ac.uk/id/eprint/506721
ISSN: 0004-637X
PURE UUID: 5edbdfd4-4f62-4256-8e16-bfd23d5bf1de
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Date deposited: 17 Nov 2025 17:38
Last modified: 18 Nov 2025 02:47
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Contributors
Author:
Zihao Zuo
Author:
Gabriele Cugno
Author:
Joseph Michail
Author:
Elena Gallo
Author:
David M. Russell
Author:
Richard M. Plotkin
Author:
Fan Zou
Author:
M. Cristina Baglio
Author:
Piergiorgio Casella
Author:
Fraser J. Cowie
Author:
Rob Fender
Author:
Sera Markoff
Author:
Federico Vincentelli
Author:
Fraser Lewis
Author:
Jon M. Miller
Author:
James C.A. Miller-Jones
Author:
Alexandra Veledina
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