AGN anisotropic radiative feedback set by black hole spin

TL;DR

This paper investigates how black hole spin influences anisotropic radiation feedback in AGNs, affecting outflow dynamics, obscuration, and black hole growth, with implications for galaxy evolution.

Contribution

It introduces a model linking black hole spin to anisotropic radiative feedback, revealing distinct outflow behaviors and obscuration patterns based on spin magnitude.

Findings

High-spin black holes produce large-scale quasi-spherical outflows.

Low-spin black holes generate weaker bipolar outflows.

Black hole spin determines AGN obscuration geometry.

Abstract

We consider the impact of anisotropic radiation on the active galactic nucleus (AGN) radiative dusty feedback. The radiation pattern originating from the accretion disc is determined by the central black hole (BH) spin. Here we analyse how such BH spin-induced angular dependence affects the dynamics and energetics of the radiation pressure-driven outflows, as well as AGN obscuration and BH accretion. In addition, we explore the effect of a spatially varying dust-to-gas ratio on the outflow propagation. We obtain two distinct trends for high-spin and low-spin objects, providing a direct connection between anisotropic feedback and BH spin. In the case of maximum spin, powerful quasi-spherical outflows can propagate on large scales, at all inclination angles with fairly uniform energetics. In contrast, in the case of zero spin, only weaker bipolar outflows can be driven in the polar directions. As a result, high BH spins can efficiently clear out the obscuring gas from most directions, whereas low BH spins can only remove dusty gas from the polar regions, hence also determining the overall AGN obscuration geometry. Due to such anisotropic feedback, high BH spins can prevent accretion of gas from most directions (except in the equatorial plane), while low BH spins allow inflows to proceed from a wider range of directions. This may have important implications for the BH growth in the early Universe. Anisotropic radiative dusty feedback, ruled by the BH spin, may thus play a major role in shaping AGN evolution over cosmic time.