# Properties of the cosmological filament between two clusters: A possible   detection of a large-scale accretion shock by $Suzaku$

**Authors:** H. Akamatsu, Y. Fujita, T. Akahori, Y. Ishisaki, K. Hayashida, A., Hoshino, F. Mernier, K. Yoshikawa, K. Sato, J. S. Kaastra

arXiv: 1704.05843 · 2017-10-04

## TL;DR

This study uses Suzaku X-ray observations to analyze the plasma properties of the filament between galaxy clusters Abell 399 and Abell 401, revealing a shock front and large-scale accretion features.

## Contribution

First detection of a large-scale accretion shock in a cosmic filament between galaxy clusters using Suzaku data.

## Key findings

- Temperature enhancement to 6.5 keV in the filament
- Identification of a shock front with Mach number ~1.3
- Consistent Compton y-parameter with Planck results

## Abstract

We report on the results of a $Suzaku$ observation of the plasma in the filament located between the two massive clusters of galaxies Abell 399 and Abell 401. Abell 399 ($z$=0.0724) and Abell 401 ($z$=0.0737) are expected to be in the initial phase of a cluster merger. In the region between the two clusters, we find a clear enhancement in the temperature of the filament plasma from 4 keV (expected value from a typical cluster temperature profile) to $kT\sim$6.5 keV. Our analysis also shows that filament plasma is present out to a radial distance of 15' (1.3 Mpc) from a line connecting the two clusters. The temperature profile is characterized by an almost flat radial shape with $kT\sim$6-7 keV within 10' or $\sim$0.8 Mpc. Across $r$=8'~from the axis, the temperature of the filament plasma shows a drop from 6.3 keV to 5.1 keV, indicating the presence of a shock front. The Mach number based on the temperature drop is estimated to be ${\cal M}\sim$1.3. We also successfully determined the abundance profile up to 15' (1.3 Mpc), showing an almost constant value ($Z$=0.3 solar) at the cluster outskirt. We estimated the Compton $y$-parameter to be $\sim$14.5$\pm1.3\times10^{-6}$, which is in agreement with $Planck$'s results (14-17$\times10^{-6}$ on the filament). The line of sight depth of the filament is $l\sim$1.1 Mpc, indicating that the geometry of filament is likely a pancake shape rather than cylindrical. The total mass of the filamentary structure is $\sim$7.7$\times10^{13}~\rm M_{\odot}$. We discuss a possible interpretation of the drop of X-ray emission at the rim of the filament, which was pushed out by the merging activity and formed by the accretion flow induced by the gravitational force of the filament.

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/1704.05843/full.md

## References

77 references — full list in the complete paper: https://tomesphere.com/paper/1704.05843/full.md

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Source: https://tomesphere.com/paper/1704.05843