Broad line region echo from highly accreting intermediate-mass black hole candidate SDSS J144850.08+160803.1. The first probe of intra-night variability and reverberation mapping

Abstract

Elusive intermediate-mass black holes (IMBHs) can be used as ``time-squeezing'' machines, enabling studies of AGN geometry via reverberation mapping on much shorter timescales than their supermassive siblings. Constraints on the BLR radius for IMBH candidates across a broad range of Eddington ratios help probe the unexplored faint end of the radius-luminosity (R-L) relation in AGNs. This opens up the opportunity to build a more robust MBH estimator. The present study is aimed at: (a) confirming a highly accreting IMBH candidate and (b) demonstrating the feasibility of the first photometric BLR RM campaign for IMBHs with high Eddington rates. SDSS J144850.08+160803.1 was identified as an IMBH candidate from a broad Hα-selected spectroscopic sample from SDSS. We carried out XMM-Newton X-ray observations to confirm its AGN status, along with narrowband Hα and broadband SDSS g' monitoring over five months (March-July 2024) using a 60-cm telescope at the Caucasus Mountain Observatory. These time series allowed us both to probe the short-timescale variability and extract the time lag between the BLR and AD continuum. XMM-Newton detected J1448+16 as a bright X-ray point source with a photon index of = 2.32+0.15-0.13 and X-ray luminosity of L2-10\,keV=(3.3+0.5-0.4)×1041 erg s-1, confirming its AGN activity. From the SDSS optical spectrum and X-ray properties, we estimated a BH mass of (0.9-2.4)~×105M and Eddington rate of 37-112\%. We report high-amplitude 55\% intra-night (1.7~h) Hα variability for this IMBH and extract a tentative BLR RM radius estimate of 1-8~days. This work is a proof of concept for further high-Eddington-rate IMBH variability studies and BLR RM campaigns, which will be essential for an efficient calibration of the R-L relation at the faint end.