A universal critical accretion rate for black hole jet formation

TL;DR

This paper demonstrates that supermassive black holes exhibit a scale-invariant critical accretion rate for jet formation, similar to stellar black holes, by analyzing tidal disruption events that reveal outflows at specific accretion thresholds.

Contribution

It provides evidence that the critical accretion rate for jet formation is universal across black hole mass scales, linking stellar and supermassive black hole accretion behaviors.

Findings

Outflows in TDEs occur at a critical accretion rate of about 0.02 L_Edd.

SMBHs show the same accretion-outflow coupling as stellar black holes.

The critical accretion rate for jet formation is scale invariant.

Abstract

It has long been suspected that black hole accretion-outflow coupling is invariant from the stellar to supermassive scales. Stellar mass black hole accretion flows are known to launch jets and outflows as they transition through critical accretion rate thresholds, with values well constrained observationally owing to their short evolutionary timescales. In contrast, accretion flows in typical supermassive black hole (SMBH) systems (those in active galactic nuclei) evolve over thousands of years, making the critical transitions at which jets are launched impossible to constrain in individual systems. Tidal disruption events (TDEs) provide the unique opportunity to witness the birth and evolution of an accretion flow onto a SMBH which evolves on timescales of years. Here we show that TDEs launch outflows during a super-Eddington accretion phase and a second, physically distinct outflow, at a critical accretion rate of $L_{\rm crit} \approx0.02$ $L_{\rm Edd}$, the same as the critical accretion rate for state transitions observed in accreting stellar mass black holes. This work naturally explains the mechanism, observed properties, and detection rate for prompt and delayed outflows observed in TDEs, which until now have been open problems. More broadly, we demonstrate that SMBHs exhibit the same accretion-outflow coupling as stellar mass black holes and that the critical low accretion rate threshold for jet formation in black holes is scale invariant.