The intermediate-mass black hole 2XMM J123103.2+110648: A varying disc accretion rate during possible X-ray quasi-periodic eruptions?

We fit the evolving X-ray spectra of the variable and fading source 2XMM J123103.2+110648 (J1231), which is an intermediate-mass black hole (IMBH) candidate. Recent X-ray timing studies propose that the quasi-periodic oscillation (QPO) of J1231, observed at the peak of its X-ray light curve, is a variant of the quasi-periodic eruptions (QPEs) observed in other sources. Here, we fit X-ray spectra from XMM-Newton, Swift, and Chandra using a slim disc model for the black hole accretion disc, obtaining a best-fit black hole mass of (6 3) 104 M and a spin of >0:6 at 2 confidence. This mass is consistent with previous estimates, supporting the IMBH interpretation, and the spin measurement is new. Yet, the nature of J1231 remains uncertain: its long-term variability (decade-long continuum evolution) could signal a tidal disruption event or active galactic nucleus variability. We find that the spectral evolution within the first three years after the source's detection can be well explained by either a varying disc accretion rate, m˙ , or a varying disc inclination. Meanwhile, we find that during the short-term variability (the QPO with a 3:8 h period), each oscillation does not show the 'hard-rise-soft-decay' typical of QPEs.We fit the average spectrum at the QPO light curve maxima and the average spectrum at its minima, finding that the spectral difierence is well explained by m˙ decreasing from peaks to valleys if < 30 and remaining constant between all data epochs. This result suggests that the short-term QPO behaviour might also be driven by a varying disc m˙ .