Stellar Disruption and the Quasar Radio Dichotomy

TL;DR

This paper proposes that the radio loudness dichotomy in quasars is due to the mass-dependent ability of SMBHs to launch jets, influenced by stellar debris that blocks jets in less massive black holes.

Contribution

It introduces a model linking SMBH mass, stellar disruption, and jet formation to explain the radio dichotomy in quasars.

Findings

SMBH mass correlates with radio loudness in quasars.

Stellar debris can block jet ejection in less massive SMBHs.

High-mass SMBHs (>10^8 solar masses) can produce extended radio structures.

Abstract

The origin of the dichotomy of radio loudness among quasars can be explained using recent findings that the mass of the central supermassive black hole (SMBH) in extended radio-loud quasars is systematically a few times that of their counterparts in radio-quiet quasars. This sensitive dependence of radio jet ejection upon SMBH mass probably arises from the blockage of jets by the presence of substantial quantities of gas tidally stripped from stars by the central BH. This disruptive gas, however, will only be available around BHs with masses less than $M_c ~\gtrsim ~10^8\Msun$, for which the tidal disruption radius lies outside the SMBH's event horizon. Consequently, we find that AGN with $M_{BH} > M_c$ can successfully launch jets with a wide range of powers, thus producing radio-loud quasars. The great majority of jets launched by less massive BHs, however, will be truncated in the vicinity of the SMBH due to mass loading from this stellar debris. This scenario also can naturally explain the remarkable dearth of extended radio structures in quasars showing broad absorption line spectra.