# Three- and two-point spatial correlations of intergalactic medium at   $z\sim 2$ using projected quasar triplets

**Authors:** Soumak Maitra, Raghunathan Srianand, Patrick Petitjean, Hadi Rahmani,, Prakash Gaikwad, Tirthankar Roy Choudhury, Christophe Pichon

arXiv: 1907.02086 · 2019-10-16

## TL;DR

This study analyzes the spatial correlations of the intergalactic medium at redshift around 2 using quasar triplet spectra, comparing observations with simulations to understand large-scale structures and matter distribution.

## Contribution

First analysis of three- and two-point correlation functions of Lyα forest at z~2 using quasar triplets, with detailed comparison to simulations and insights into large-scale structure.

## Key findings

- Correlation functions are well reproduced by simulations.
- Identification of a large void with a 17 Å gap in one triplet.
- Detection of DLAs and over-dense regions near quasars.

## Abstract

We present analysis of two- and three-point correlation functions of Ly$\alpha$ forest (at $2\le z\le 2.5$) using X-Shooter spectra of three background quasar triplets probing transverse separations of 0.5-1.6 pMpc. We present statistics based on transmitted flux and clouds identified using Voigt profile fitting. We show that the observed two-, three-point correlation functions and reduced three-point correlation (i.e Q) are well reproduced by our simulations. We assign probabilities for realising all the observed correlation properties simultaneously using our simulations. Our simulations suggest an increase in correlation amplitudes and Q with increasing $N_{\rm HI}$. We roughly see this trend in the observations too. We identify a concurrent gap of 17$\mathring{A}$ (i.e 14.2 $h^{-1}$cMpc, one of the longest reported) wide in one of the triplets. Such gap is realised only in 14.2% of our simulated sightlines and most of the time belongs to a void in the matter distribution. In the second triplet, we detect DLAs along all three sightlines (with spatial separations 0.64 to 1.6 pMpc) within a narrow redshift interval (i.e $\Delta z = 0.088$). Detection of a foreground quasar ($\sim$ 1 pMpc from the triplet sightlines) and excess partial Lyman Limit systems around these DLAs suggest that we may be probing a large over-dense region. We also report positive CIV- CIV correlations up to $\sim 500$ $km s^{-1}$ only in the longitudinal direction. Additionally, we conclude a positive CIV-Ly$\alpha$ correlations for higher $N_{\rm HI}$ thresholds up to a scale of $\sim 1000$ $km s^{-1}$ both in transverse and longitudinal directions.

## Full text

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## Figures

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## References

70 references — full list in the complete paper: https://tomesphere.com/paper/1907.02086/full.md

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Source: https://tomesphere.com/paper/1907.02086