TY - JOUR
T1 - Radio Scrutiny of the X-Ray-weak Tail of Low-mass Active Galactic Nuclei
T2 - A Novel Signature of High-Eddington Accretion?
AU - Paul, Jeremiah D.
AU - Plotkin, Richard M.
AU - Brandt, W. N.
AU - Ellis, Christopher H.
AU - Gallo, Elena
AU - Greene, Jenny E.
AU - Ho, Luis C.
AU - Kimball, Amy E.
AU - Haggard, Daryl
N1 - Publisher Copyright:
© 2024. The Author(s). Published by the American Astronomical Society.
PY - 2024/10/1
Y1 - 2024/10/1
N2 - The supermassive black holes (MBH ∼ 106-1010 M⊙) that power luminous active galactic nuclei (AGNs), i.e., quasars, generally show a correlation between thermal disk emission in the ultraviolet (UV) and coronal emission in hard X-rays. In contrast, some “massive” black holes (mBHs; MBH ∼ 105-106 M⊙) in low-mass galaxies present curious X-ray properties with coronal radiative output up to 100× weaker than expected. To examine this issue, we present a pilot study incorporating Very Large Array radio observations of a sample of 18 high-accretion-rate (Eddington ratios Lbol/LEdd > 0.1), mBH-powered AGNs (MBH ∼ 106 M⊙) with Chandra X-ray coverage. Empirical correlations previously revealed in samples of radio-quiet, high-Eddington AGNs indicate that the radio-X-ray luminosity ratio, LR/LX, is approximately constant. Through multiwavelength analysis, we instead find that the X-ray-weaker mBHs in our sample tend toward larger values of LR/LX even though they remain radio-quiet per their optical-UV properties. This trend results in a tentative but highly intriguing correlation between LR/LX and X-ray weakness, which we argue is consistent with a scenario in which X-rays may be preferentially obscured from our line of sight by a “slim” accretion disk. We compare this observation to weak emission-line quasars (AGNs with exceptionally weak broad-line emission and a significant X-ray-weak fraction) and conclude by suggesting that our results may offer a new observational signature for finding high-accretion-rate AGNs.
AB - The supermassive black holes (MBH ∼ 106-1010 M⊙) that power luminous active galactic nuclei (AGNs), i.e., quasars, generally show a correlation between thermal disk emission in the ultraviolet (UV) and coronal emission in hard X-rays. In contrast, some “massive” black holes (mBHs; MBH ∼ 105-106 M⊙) in low-mass galaxies present curious X-ray properties with coronal radiative output up to 100× weaker than expected. To examine this issue, we present a pilot study incorporating Very Large Array radio observations of a sample of 18 high-accretion-rate (Eddington ratios Lbol/LEdd > 0.1), mBH-powered AGNs (MBH ∼ 106 M⊙) with Chandra X-ray coverage. Empirical correlations previously revealed in samples of radio-quiet, high-Eddington AGNs indicate that the radio-X-ray luminosity ratio, LR/LX, is approximately constant. Through multiwavelength analysis, we instead find that the X-ray-weaker mBHs in our sample tend toward larger values of LR/LX even though they remain radio-quiet per their optical-UV properties. This trend results in a tentative but highly intriguing correlation between LR/LX and X-ray weakness, which we argue is consistent with a scenario in which X-rays may be preferentially obscured from our line of sight by a “slim” accretion disk. We compare this observation to weak emission-line quasars (AGNs with exceptionally weak broad-line emission and a significant X-ray-weak fraction) and conclude by suggesting that our results may offer a new observational signature for finding high-accretion-rate AGNs.
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U2 - 10.3847/1538-4357/ad67d1
DO - 10.3847/1538-4357/ad67d1
M3 - Article
AN - SCOPUS:85206257866
SN - 0004-637X
VL - 974
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 1
M1 - 66
ER -