The existence of magnetic fields associated with the intracluster medium in clusters of galaxies is now well established through different methods of analysis. Magnetic fields are investigated in the radio band from studies of the rotation measure of polarized radio galaxies and the synchrotron emission of cluster-wide diffuse sources. Other techniques include X-ray studies of the inverse Compton emission and of cold fronts and magneto hydrodynamic simulations. We review the main issues that have led to our knowledge on magnetic fields in clusters of galaxies. Observations show that cluster fields are at the μG level, with values up to tens of μG at the center of cooling core clusters. Estimates obtained from different observational approaches may differ by about an order of magnitude. However, the discrepancy may be alleviated by considering that the magnetic field is not constant throughout the cluster, and shows a complex structure. In particular, the magnetic field intensity declines with the cluster ...

Magnetic fields in clusters of galaxies

We review observations of extended regions of radio emission in clusters; these include diffuse emission in ‘relics’, and the large central regions commonly referred to as ‘halos’. The spectral observations, as well as Faraday rotation measurements of background and cluster radio sources, provide the main evidence for large-scale intracluster magnetic fields and significant densities of relativistic electrons. Implications from these observations on acceleration mechanisms of these electrons are reviewed, including turbulent and shock acceleration, and also the origin of some of the electrons in collisions of relativistic protons by ambient protons in the (thermal) gas. Improved knowledge of non-thermal phenomena in clusters requires more extensive and detailed radio measurements; we briefly review prospects for future observations.

https://link.springer.com/content/pdf/10.1007%2Fs11214-008-9311-x.pdf

Observations of Extended Radio Emission in Clusters

Chandra observations of the merging galaxy cluster A520 reveal a prominent bow shock with M = 21 This is only the second clear example of a substantially supersonic merger shock front in clusters Comparison of the X-ray image with that of the previously known radio halo reveals a coincidence of the leading edge of the halo with the bow shock, offering an interesting experimental setup for determining the role of shocks in the radio halo generation The halo in A520 apparently consists of two spatially distinct parts, the main turbulence-driven component and a cap-like forward structure related to the shock, where the latter may provide preenergized electrons for subsequent turbulent reacceleration The radio edge may be caused by electron acceleration by the shock If so, the synchrotron spectrum should have a slope of α 12 right behind the edge, with quick steepening farther away from the edge Alternatively, if shocks are inefficient accelerators, the radio edge may be explained by an increase in the magnetic field and density of preexisting relativistic electrons due to gas compression In the latter model, there should be radio emission in front of the shock with the same spectrum as that behind it, but 10-20 times fainter If future sensitive radio measurements do not find such preshock emission, then the electrons are indeed accelerated (or reaccelerated) by the shock, and one will be able to determine its acceleration efficiency We also propose a method to estimate the magnetic field strength behind the shock, based on measuring the dependence of the radio spectral slope upon the distance from the shock In addition, the radio edge provides a way to constrain the diffusion speed of the relativistic electrons

https://iopscience.iop.org/article/10.1086/430695/pdf

Bow Shock and Radio Halo in the Merging Cluster A520

Deep Very Large Array radio observations confirm the presence of halo and relic sources in six clusters of galaxies (A115, A520, A773, A1664, A2254, A2744) where a wide diffuse emission was previously found in the NRAO VLA Sky Survey. New images at 1.4 GHz of these six clusters of galaxies are presented and X-ray data obtained from the ROSAT archive are analyzed. The properties of clusters hosting radio halos and relics are analyzed and discussed. A correlation between the halo radio power and the cluster gravitational mass is presented.

/pdf/radio-and-x-ray-diffuse-emission-in-six-clusters-of-galaxies-2wo59ugpbk.pdf

Radio and X-ray diffuse emission in six clusters of galaxies

https://arxiv.org/pdf/astro-ph/0107275.pdf

The paper describes the antenna system, principles of the electrical beam steering, checks of the pattern parameters and the receiving facilities of the UTR-2 radio telescope. Principal characteristics of the instrument are given and possible errors analysed for the operating frequencies of 10, 12.6, 14.7, 16.7, 20 and 25 MHz. The methods of survey work on discrete radio sources are described with an analysis of the flux measurement errors specific for the decametre band. A computer algorithm of data processing is presented.

Decametric survey of discrete sources in the Northern sky: I. The UTR-2 radio telescope. experimental techniques and data processing

Spectra of 266 discrete sources within a frequency range of 10 to 1400 MHz have been obtained for a declination interval 10° to 20° on the basis of a new decametric survey carried out at Grakovo on the UTR-2 radio telescope, as well as a number of high-frequency surveys performed at Culgoora, Cambridge, Molonglo, Parkes and Ohio. Spectra of 86% of the sources are linear, those of 10% have positive curvature and, of the remainder, 4% have negative curvature. The spectral index distribution has been investigated and the spectra graphs are plotted.

Decametric survey of discrete sources in the Northern sky: IV. Spectra of 266 discrete sources in the range 10 to 1400 MHz

This paper presents the results of measurements of the Crab nebula in the decametre range with an interferometer whose baseline is 2.4–3.5×103 of the wavelength. Visibility function values, which in these observations determine the contribution by the compact source to the total nebula flux, have been measured at frequencies 16.7, 20 and 25 MHz to be 0.64±0.07, 0.43±0.04 and 0.31±0.03, respectively. The spectral index of the spectrum obtained for the compact source in the range 16.7–122 MHz is 2.09±0.04. Flattening of the nebula spectrum without the compact source has been confirmed for the decametre range.

Measurements of radio emission from the compact source in the Crab nebula with the uran-1 interferometer at 16.7, 20 and 25 MHz

Spectra of 197 discrete sources have been obtained in a frequency range 10–1400 MHz. The sources lie at declinations between 0° and +10° and right ascensions from 0–24 h. The spectra have been constructed on the basis of a decametric survey carried out at Grakovo with the UTR-2 radio-telescope, as well as a number of higher frequency surveys performed at Culgoora, Cambridge, Parkes and Ohio. Analysis of the spectrum plots shows that 84% of the spectra are linear (in the logarithmic scale), 11% are characterized by positive and 5% by negative curvature.

Decametric Survey of Discrete Sources in the Northern Sky. VI. Spectra of Discrete Sources in the Range 10 to 1400 MHz, for Declinations 0 to + 10

Results of observations of Cassippeia A at decametric wavelengths on radiointerferometers with baselines of 2840 and 3550 wavelengths are presented. As has been found, the model of the large-scale structure, deducted from the measurements in the meter and decimeter wavebands, is inconsistent with the results obtained at decameter wavelengths. The data can be reconciled by assuming a compact detail with angular dimensions about 4″. The contribution of that detail into the total flux is 6.8±2.4% and 3.7±1.4% at 20 and 25 MHz, respectively. The radiation spectrum of the part in the range 20 to 111 MHz is steep, with a spectral index about 2.

Observations of Cassiopeia A at 20 and 25 MHz with the uran-1 interferometer

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