The Jet Origin of the Mid-infrared Excess in the Black Hole V404 Cygni in Quiescence (2506.20536v1)

Abstract: Observations of some quiescent black hole X-ray binaries have revealed an excess of mid-infrared (MIR) emission above that expected from their donor stars. In one system, V404 Cygni, this excess has been variously suggested to arise from the accretion disk, circumbinary material, or a compact relativistic jet. Here we present simultaneous James Webb Space Telescope (JWST), Atacama Large Millimeter/submillimeter Array (ALMA), and complementary multi-wavelength observations undertaken to resolve this uncertainty. We observed large-amplitude 21 $\mu$m variability on short timescales with JWST, particularly a dramatic flare which swiftly rose to $\approx 2.4$ mJy, over 10 times the lowest observed MIR flux density. Similar variability was simultaneously observed from radio to X-ray wavelengths with other facilities throughout the campaign. This variability and the flat radio/mm/MIR spectral index ($\alpha = 0.04 \pm 0.01$) suggest that the MIR excess in V404 Cyg does not arise from the accretion disk or circumbinary material but is instead dominated by synchrotron radiation from a jet which persists into quiescence. This result reinforces the ubiquity of the disk-jet connection in accreting black holes across a range of masses and accretion rates.