New mechanism of radiation polarization in Seyfert-1 AGNs

TL;DR

This paper proposes a new mechanism involving Faraday rotation of reflected radiation in accretion discs to explain the intermediate polarization degrees and angles observed in Seyfert-1 AGNs, accounting for magnetic fields and jet-disc interactions.

Contribution

It introduces a model where Faraday rotation in accretion discs explains polarization features in Seyfert-1 AGNs, addressing previous unexplained intermediate polarization values.

Findings

Faraday rotation affects polarization angles in Seyfert-1 AGNs.

Depolarization due to Faraday rotation explains observed polarization degrees.

The model matches polarization observations across several Seyfert-1 AGNs.

Abstract

In most of Seyfert-1 active galactic nucei (AGN) the optical linear continuum polarization degree is usually small (less than 1%) and the polarization position angle is nearly parallel to the AGN radio-axis. However, there are many types-1 AGNs with unexplained intermediate values for both positional angles and polarization degrees. Our explanation of polarization degree and positional angle of Seyfert-1 AGNs focuses on the reflection of non-polarized radiation from sub-parsec jets in optically thick accretion discs. The presence of a magnetic field surrounding the scattering media will induce Faraday rotation of the polarization plane that may explain the intermediate values of positional angles if there is a magnetic field component normal to the accretion disc. The Faraday rotation depolarization effect in disc diminishes the competition between polarization of the reflected radiation with the parallel component of polarization and the perpendicular polarization from internal radiation of disc (the Milne problem) in favor of polarization of reflected radiation. This effect allows us to explain the observed polarization of Seyfert-1 AGN radiation even though the jet optical luminosity is much lower than the luminosity of disc. We present the calculation of polarization degrees for a number of Seyfert-1 AGNs.