Evidence for an Intermediate Mass Black Hole in NGC 5408 X-1

TL;DR

This study presents evidence that NGC 5408 X-1 is an intermediate mass black hole, based on spectral and timing analysis showing patterns similar to stellar-mass black holes but at higher luminosities.

Contribution

The paper provides the first detailed spectral-timing correlation analysis in a ULX, supporting the presence of an intermediate mass black hole through QPO scaling relations.

Findings

QPO frequency correlates with disk flux

Mass estimate for NGC 5408 X-1 is 1000-9000 solar masses

Spectral-timing patterns resemble those of stellar-mass black holes

Abstract

We report the discovery with XMM-Newton of correlated spectral and timing behavior in the ultraluminous X-ray source (ULX) NGC 5408 X-1. An ~100 ksec pointing with XMM/Newton obtained in January, 2008 reveals a strong 10 mHz QPO in the > 1 keV flux, as well as flat-topped, band limited noise breaking to a power law. The energy spectrum is again dominated by two components, a 0.16 keV thermal disk and a power-law with an index of ~2.5. These new measurements, combined with results from our previous January 2006 pointing in which we first detected QPOs, show for the first time in a ULX a pattern of spectral and temporal correlations strongly analogous to that seen in Galactic black hole sources, but at much higher X-ray luminosity and longer characteristic time-scales. We find that the QPO frequency is proportional to the inferred disk flux, while the QPO and broad-band noise amplitude (root mean squared, rms) are inversely proportional to the disk flux. Assuming that QPO frequency scales inversely with black hole mass at a given power-law spectral index we derive mass estimates using the observed QPO frequency - spectral index relations from five stellar-mass black hole systems with dynamical mass constraints. The results from all sources are consistent with a mass range for NGC 5408 X-1 from 1000 - 9000 solar masses. Moreover, the recent relation from Gierlinski et al. that relates black hole mass to the strength of variability at high frequencies (above the break in the power spectrum) is also indicative of such a high mass for NGC 5408 X-1. We argue that these new findings strongly support the conclusion that NGC 5408 X-1 harbors an intermediate mass black hole.