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

Author:

Lo Wen-PingORCID,Asada KeiichiORCID,Matsushita SatokiORCID,Nakamura MasanoriORCID,Pu Hung-YiORCID,Tseng ChihyinORCID,Akiyama KazunoriORCID,Algaba Juan CarlosORCID,Bower Geoffrey C.ORCID,Rao RamprasadORCID,Koay Jun YiORCID,Koch Patrick M.ORCID,Koyama ShokoORCID,Ho Paul T. PORCID,Inoue MakotoORCID

Abstract

Abstract 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.

Funder

ASIAA

Publisher

American Astronomical Society

Subject

Space and Planetary Science,Astronomy and Astrophysics

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