PSZ2 G282.28+49.94, a recently discovered analogue of the famous Bullet Cluster

arXiv - PHYS - Cosmology and Nongalactic Astrophysics Pub Date : 2024-09-11 DOI:arxiv-2409.07290

I. Bartalucci, M. Rossetti, W. Boschin, M. Girardi, M. Nonino, E. Baraldi, M. Balboni, D. Coe, S. De Grandi, F. Gastaldello, S. Ghizzardi, S. Giacintucci, C. Grillo, D. Harvey, L. Lovisari, S. Molendi, T. Resseguier, G. Riva, T. Venturi, A. Zitrin

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Abstract

We present a detailed study of the gas and galaxy properties of the cluster PSZ2 G282.28+49.94 detected in the Planck all-sky survey. The intracluster medium (ICM) of this object at z=0.56 exhibits a cometary-like shape. Combining Chandra and TNG observations, we characterised the spatially resolved thermodynamical properties of the gas and the spatial and velocity distribution of 73 galaxy members. The cluster structure is quite complex with an elongated core region containing the two brightest cluster galaxies and one dense group to the south-east. Since there is no velocity difference between the core and the south-east group, we suggest the presence of a merger along the plane of the sky. This structure is related to complex X-ray and radio features, and thus the merger has likely been caught during the post-merger phase. Comparing the distribution of the ICM and of member galaxies, we find a large offset of $\sim 350$ kpc between the position of the X-ray peak and the centre of a concentration of galaxies, preceding it in the likely direction of motion. This configuration is similar to the famous Bullet Cluster, leading us to dub PSZ2 G282.28+49.94 the "Planck bullet", and represents an ideal situation to provide astrophysical constraints to the self-interaction cross-section ($\sigma/m$) of dark matter particles. These results illustrate the power of a multi-wavelength approach to probe the merging scenario of such complex and distant systems.

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PSZ2 G282.28+49.94，最近发现的著名子弹星团的类似物

我们对普朗克全天空巡天探测到的星团PSZ2 G282.28+49.94的气体和星系性质进行了详细研究。该天体z=0.56处的簇内介质（ICM）呈现出类似彗星的形状。结合Chandra和TNG观测，我们描述了气体的空间分辨热力学性质以及73个星系成员的空间和速度分布。星团结构相当复杂，有一个拉长的核心区域，包含两个最亮的星团星系和东南方的一个密集星系群。由于核心区和东南部星系群之间没有速度差异，我们认为存在着沿天空平面的合并。这种结构与复杂的 X 射线和射电特征有关，因此合并很可能是在合并后阶段发生的。通过比较 ICM 和成员星系的分布，我们发现在 X 射线峰的位置和星系聚集中心之间有一个很大的偏移，偏移量为 350 千帕（kpc）。这种配置类似于著名的子弹星系团，因此我们把PSZ2G282.28+49.94称为 "普朗克子弹"，它是为暗物质粒子的自相互作用截面（$\sigma/m$）提供物理约束的理想情况。这些结果说明了多波长方法在探测这种复杂而遥远的系统的合并情况方面的威力。

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arXiv - PHYS - Cosmology and Nongalactic Astrophysics

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