# A Triple AGN in a Mid-Infrared Selected Late Stage Galaxy Merger

**Authors:** Ryan W. Pfeifle, Shobita Satyapal, Christina Manzano-King, Jenna Cann,, Remington O. Sexton, Barry Rothberg, Gabriela Canalizo, Claudio Ricci, Laura, Blecha, Sara L. Ellison, Mario Gliozzi, Nathan J. Secrest, Anca Constantin,, Jenna B. Harvey

arXiv: 1908.01732 · 2019-10-09

## TL;DR

This paper reports the discovery of a rare triple active galactic nucleus system in a late-stage galaxy merger, providing insights into SMBH co-evolution and the dynamics of triple SMBH systems.

## Contribution

It presents the first compelling multiwavelength evidence for a triple AGN in an advanced galaxy merger, highlighting its significance for understanding SMBH interactions.

## Key findings

- Detection of three nuclear X-ray sources consistent with AGNs
- Spectroscopic line ratios confirm AGN activity in all three nuclei
- Supports the existence of a gravitationally bound triple SMBH system

## Abstract

The co-evolution of galaxies and the supermassive black holes (SMBHs) at their centers via hierarchical galaxy mergers is a key prediction of $\Lambda$CDM cosmology. As gas and dust are funneled to the SMBHs during the merger, the SMBHs light up as active galactic nuclei (AGNs). In some cases, a merger of two galaxies can encounter a third galaxy, leading to a triple merger, which would manifest as a triple AGN if all three SMBHs are simultaneously accreting. Using high-spatial resolution X-ray, near-IR, and optical spectroscopic diagnostics, we report here a compelling case of an AGN triplet with mutual separations < 10 kpc in the advanced merger SDSS J084905.51+111447.2 at z = 0.077. The system exhibits three nuclear X-ray sources, optical spectroscopic line ratios consistent with AGN in each nucleus, a high excitation near-IR coronal line in one nucleus, and broad Pa$\alpha$ detections in two nuclei. Hard X-ray spectral fitting reveals a high column density along the line of sight, consistent with the picture of late-stage mergers hosting heavily absorbed AGNs. Our multiwavelength diagnostics support a triple AGN scenario, and we rule out alternative explanations such as star formation activity, shock-driven emission, and emission from fewer than three AGN. The dynamics of gravitationally bound triple SMBH systems can dramatically reduce binary SMBH inspiral timescales, providing a possible means to surmount the "Final Parsec Problem." AGN triplets in advanced mergers are the only observational forerunner to bound triple SMBH systems and thus offer a glimpse of the accretion activity and environments of the AGNs prior to the gravitationally-bound triple phase.

## Full text

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## Figures

21 figures with captions in the complete paper: https://tomesphere.com/paper/1908.01732/full.md

## References

81 references — full list in the complete paper: https://tomesphere.com/paper/1908.01732/full.md

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Source: https://tomesphere.com/paper/1908.01732