# Rapidly accreting black hole of the Ly{\alpha}-luminous quasar PSO   J006.1240+39.2219

**Authors:** Ekaterina Koptelova, Chorng-Yuan Hwang, Matthew A. Malkan, Po-Chieh Yu

arXiv: 1907.07458 · 2019-09-25

## TL;DR

This study presents near-infrared spectra of a high-redshift, Lyα-luminous quasar, revealing a rapidly accreting supermassive black hole with high nitrogen abundance, indicating active growth and specific chemical properties.

## Contribution

First near-infrared spectral analysis of PSO J006.1240+39.2219, providing black hole mass, accretion rate, and chemical composition insights at z=6.617.

## Key findings

- Black hole mass of approximately 2.19×10^8 solar masses.
- Accretion rate indicating rapid black hole growth, with L_bol/L_edd > 2.
- High NV/CIV ratio suggesting high nitrogen abundance.

## Abstract

We present near-infrared 1.1-1.3 and 1.3-1.6 $\mu$m spectra of the Ly$\alpha$-luminous quasar PSO J006.1240+39.2219 at $z=6.617$ obtained with the NIRSPEC spectrograph at the Keck-II telescope. The spectra cover the CIV $\lambda$1549, CIII] $\lambda$1909 emission lines and part of the UV continuum of the quasar. From the NIRSPEC observations of PSO J006.1240+39.2219, we constrain the spectral slope of its UV continuum to be $\alpha_{\lambda}=-1.35\pm0.26$ and measure an absolute magnitude of $M_{1450}=-25.60$. Using the scaling relation between black hole mass, width of the CIV line and ultraviolet continuum luminosity, we derive a black hole mass of $(2.19\pm0.30)\times 10^8 M_{sun}$, which is consistent but somewhat smaller than the typical black hole masses of $z\gtrsim6$ quasars of similar luminosities. The inferred accretion rate of $L_{bol}/L_{edd}\gtrsim2$ indicates that PSO J006.1240+39.2219 is in the phase of the rapid growth of its supermassive black hole characterized by the high NV/CIV line ratio, NV/CIV$>1$, and lower level of ionization of its circumnuclear gas than in other high-redshift luminous quasars. The NV/CIV line ratio of PSO J006.1240+39.2219 implies relatively high abundance of nitrogen in its circumnuclear gas. This abundance might be produced by the post-starburst population of stars that provide the fuel for black hole accretion.

## Full text

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## Figures

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## References

83 references — full list in the complete paper: https://tomesphere.com/paper/1907.07458/full.md

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Source: https://tomesphere.com/paper/1907.07458