Constraints on the Mass Accretion Rate onto the Supermassive Black Hole of Cygnus A Using the Submillimeter Array

We present the first detailed polarimetric studies of Cygnus A at 230 GHz with the Submillimeter Array (SMA) to constrain the mass accretion rate onto its supermassive black hole. We detected the polarized emission associated with the core at a fractional polarization of . This low fractional polari...

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Veröffentlicht in:The Astrophysical journal 2021-04, Vol.911 (1), p.35
Hauptverfasser: Lo, Wen-Ping, Asada, Keiichi, Matsushita, Satoki, Nakamura, Masanori, Pu, Hung-Yi, Tseng, Chihyin, Akiyama, Kazunori, Algaba, Juan Carlos, Bower, Geoffrey C., Rao, Ramprasad, Koay, Jun Yi, Koch, Patrick M., Koyama, Shoko, Ho, Paul T. P, Inoue, Makoto
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Sprache:eng
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Zusammenfassung:We present the first detailed polarimetric studies of Cygnus A at 230 GHz with the Submillimeter Array (SMA) to constrain the mass accretion rate onto its supermassive black hole. We detected the polarized emission associated with the core at a fractional polarization of . This low fractional polarization suggests that the polarized emission is highly depolarized. One of the possible explanations is due to a significant variance in the Faraday rotation measure within the synthesized beam. By assuming the Faraday depolarization caused by inhomogeneous column density of the magnetized plasma associated with the surrounding radiatively-inefficient accretion flow within the SMA beam, we derived the constraint on the mass accretion rate to be larger than 0.15 yr −1 at the Bondi radius. The derived constraint indicates that an adiabatic inflow–outflow solution or an advection-dominated accretion flow should be preferable as the accretion flow model in order to explain the jet power of Cygnus A.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/abd17b