Abell 1430: A merging cluster with exceptional diffuse radio emission
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Date
2021Author
Hoeft, M
Dumba, C
Drabent, A.
Rajpurohit, K.
Rossetti, M.
Nuza, S. E.
Weeren, R. J. van
Meusinger, H.
Botteon, A.
Brunetti, G.
Shimwell, T. W.
Cassano, R.
Brüggen, M.
Röttgering, H. J. A.
Gastaldello, F.
Lovisari, L.
Yepes, G.
Andrade-Santos, F.
Eckert, D.
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Show full item recordAbstract
Context. Di_use radio emission has been found in many galaxy clusters, predominantly in massive systems which are in the state of
merging. The radio emission can usually be classified as relic or halo emission, which are believed to be related to merger shocks or
volume-filling turbulence, respectively. Recent observations have revealed radio bridges for some pairs of very close galaxy clusters.
The mechanisms that may allow one to explain the high specific density of relativistic electrons, which are necessary to explain the
radio luminosity of these bridge regions, have been poorly explored until now.
Aims. When inspecting the first data release of the LOFAR Two-Metre Sky Survey (LoTSS), we discovered di_use radio emission in
the galaxy cluster Abell 1430. Here, we aim to determine the dynamical state of the cluster and characterise the di_use radio emission.
Methods.We analysed the LoTSS data in detail and complemented them with recent Karl G. Jansky Very Large Array observations in
the L-band. To study the dynamical state of the cluster, we analysed XMM-Newton data, Chandra data, and Sloan Digital Sky Survey
data. Moreover, we compared our results to clusters extracted from The Three Hundred Project cosmological simulation.
Results. We find that Abell 1430 consists of two components, namely A1430-A and A1430-B, with a mass ratio of about 2:1. The
massive component shows di_use radio emission which can be classified as radio halo which shows a low radio power at 1.4 GHz with
respect to the mass of the cluster. Most interestingly, there is extended di_use radio emission in the following dubbed as the ‘Pillow’
according to its morphology, which is apparently related to A1430-B and which is neither typical halo nor typical relic emission. The
origin of this emission is puzzling. We speculate that the two components of Abell 1430 undergo an o_-axis merger. In this scenario,
A1430-B is moving towards the main cluster component and may have compressed and stirred the medium in the filament between
the two cluster components.
Conclusions. We have discovered evidence for di_use radio emission related to the low-density intracluster or intergalactic medium
in Abell 1430. To date, only a few examples of emission originating from such regions are known. These discoveries are crucial to
constrain possible acceleration mechanisms which may allow us to explain the presence of relativistic electrons in these regions. In
particular, our results indicate a spectral index of _1:5 GHz
144MHz = 1:4 _ 0:5 for the Pillow. If upcoming observations confirm a slope as
flat as 1:4 or even flatter, this would pose a challenge for the electron acceleration scenarios.
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