11 research outputs found
Diffuse radio emission and magnetic fields in galaxy clusters
Observations at radio wavelengths demonstrate the existence of cosmic rays and magnetic fields in the Universe. Studies of galaxy clusters have revealed sources of diffuse radio emission associated with the merger driven shocks and turbulence in the ICM: relics and halos. This thesis present the results obtained from deep radio observations of two individual galaxy clusters. The galaxy cluster 1RXS J0603.3+4214 hosts a bright relic, known as the Toothbrush, and a giant radio halo. The cluster was observed with the VLA covering a frequency range of 1 2GHz. The new VLA images provide an unprecedented view of the Toothbrush, revealing enigmatic filamentary structures. The complexity of the filamentary structures rule out the fact that relics are caused by a smooth shock surface. In L-band, the handle of the Toothbrush is strongly polarized, as high as 60%, while the brush is almost completely depolarized. The fractional polarization in the handle decreases only moderately towards longer wavelength. Rotation Measure (RM) synthesis analysis reveals that the filamentary features in the low density region (B3) show a shift in RM of 30 radm 2 while in the denser region (B2), the shift in RM increases to 50 radm 2. The VLA observations confirm the presence of extended halo. The average spectral index of the halo is 1.16 ± 0.05. The southern part of the halo is steeper and is possibly related to a shock. Excluding the southernmost part, the halo morphology is strikingly similar to the X-ray morphology. The sensitive high resolution radio maps also reveal thirty-two previously undetected compact sources within the halo region. For another cluster CIZAJ0649.3+1801, we confirm the presence of a diffuse emission source. The cluster was observed with the WSRT. The source is polarized, has a steep spectrum, and shows a hint of spectral gradient towards the cluster center. This evidence suggests that it is a radio relic
A morphological analysis of the substructures in radio relics
Recent observations of radio relics - diffuse radio emission in galaxy
clusters - have revealed that these sources are not smooth but consist of
structures in the form of threads and filaments. We investigate the origin of
these filamentary structures and the role of projection effects. To this end,
we have developed a tool that extracts the filamentary structures from
background emission. Moreover, it is capable of studying both two-dimensional
and three-dimensional objects. We apply our structure extractor to, both,
observations and cosmological simulations of radio relics. Using Minkowski
functionals, we determine the shape of the identified structures. In our 2D
analysis, we find that the brightest structures in the observed and simulated
maps are filaments. Our analysis of the 3D simulation data shows that radio
relics do not consist of sheets but only of filaments and ribbons. Furthermore,
we did not find any measurable projection effects that could hide any
sheet-like structures in projection. We find that, both, the magnetic field and
the shock front consist of filaments and ribbons that cause filamentary radio
emission.Comment: 20 pages, 22 figures, accepted for publication in MNRA
Discovering the most elusive radio relic in the sky: Diffuse Shock Acceleration caught in the act?
The origin of radio relics is usually explained via diffusive shock
acceleration (DSA) or re-acceleration of electrons at/from merger shocks in
galaxy clusters. The case of acceleration is challenged by the low predicted
efficiency of low-Mach number merger shocks, unable to explain the power
observed in most radio relics. In this Letter we present the discovery of a new
giant radio relic around the galaxy cluster Abell 2249 () using
LOFAR. It is special since it has the lowest surface brightness of all known
radio relics. We study its radio and X-ray properties combinig LOFAR data with
uGMRT, JVLA and XMM. This object has a total power of W Hz and integrated spectral index . We infer for this radio relic a lower bound on the magnetisation of
G, a shock Mach number of , and a low
acceleration efficiency consistent with DSA. This result suggests that a
missing population of relics may become visible thanks to the unprecedented
sensitivity of the new generation of radio telescopes.Comment: Letter, 5 pages, 4 figures, accepted for publication on MNRAS Letter
Spectro-polarimetric observations of the CIZA J2242.8+5301 northern radio relic: no evidence of high-frequency steepening
Observations of radio relics at very high frequency (>10 GHz) can help to
understand how particles age and are (re-)accelerated in galaxy cluster
outskirts and how magnetic fields are amplified in these environments. In this
work, we present new single-dish 18.6 GHz Sardinia Radio Telescope and 14.25
GHz Effelsberg observations of the well known northern radio relic of CIZA
J2242.8+5301. We detected the relic which shows a length of 1.8 Mpc and a
flux density equal to and at 14.25 GHz and 18.6 GHz respectively. The
resulting best-fit model of the relic spectrum from 145 MHz to 18.6 GHz is a
power-law spectrum with spectral index : no evidence of
steepening has been found in the new data presented in this work. For the first
time, polarisation properties have been derived at 18.6 GHz, revealing an
averaged polarisation fraction of and a magnetic field aligned with
the 'filaments' or 'sheets' of the relic.Comment: 10 pages, 8 figure
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Very Large Array Radio Study of a Sample of Nearby X-Ray and Optically Bright Early-type Galaxies
Abstract
Many massive early-type galaxies host central radio sources and hot X-ray atmospheres indicating the presence of radio-mechanical active galactic nucleus (AGN) feedback. The duty cycle and detailed physics of the radio-mode AGN feedback is still a matter of debate. To address these questions, we present 1–2 GHz Karl G. Jansky Very Large Array radio observations of a sample of the 42 nearest optically and X-ray brightest early-type galaxies. We detect radio emission in 41/42 galaxies. However, the galaxy without a radio source, NGC 499, has recently been detected at lower frequencies by the Low-Frequency Array. Furthermore, 27/42 galaxies in our sample host extended radio structures and 34/42 sources show environmental interactions in the form of X-ray cavities. We find a significant correlation between the radio flux density and the largest linear size of the radio emission and between the radio power and the luminosity of the central X-ray point source. The central radio spectral indices of the galaxies span a wide range of values, with the majority of the systems having steep spectra and the rest flat spectra. These results are consistent with AGN activity, where the central radio sources are mostly switched on, thus the duty cycle is very high. Seven out of 14 galaxies with pointlike radio emission (Fanaroff–Riley Class 0; FR 0) also show X-ray cavities indicating that, despite the lack of extended radio structures at 1–2 GHz, these AGNs do launch jets capable of inflating lobes and cavities.</jats:p
Exploring the stellar properties of M dwarfs with high-resolution spectroscopy from the optical to the near-infrared (Corrigendum)
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On the Polarisation of Radio Relics
Radio relics are extended radio emission features which trace shock waves in the periphery of galaxy clusters originating from cluster mergers. Some radio relics show a highly polarised emission, which make relics an excellent probe for the magnetisation of the intra-cluster medium. The origin of the relic polarisation is still debated. It could be a result of tangentially stretching the magnetic field at the shock surface. This scenario would naturally explain the alignment of the polarisation (E-vectors) with the shock normal. We have implemented a toy model for the relic polarisation according to this scenario. We find that the magnetic field strength itself crucially affects the fractional polarisation. Moreover, we find that the shock strength has surprisingly little effect on the overall polarisation fraction. Finally, we find that the fractional polarisation may decrease downstream depending on the magnetic field strength. Our results demonstrates that the shock compression scenario provides a very plausible explanation for the radio relic polarisation which specific features permitting to test the origin of radio relic polarisation
LOFAR discovery and wide-band characterisation of an ultra-steep spectrum AGN radio remnant associated with Abell 1318
We present the discovery of a very extended (550 kpc) and low-surface-brightness (3.3 µJy arcsec−2 at 144 MHz) radio emission region in Abell 1318. These properties are consistent with its characterisation as an active galactic nucleus (AGN) remnant radio plasma, based on its morphology and radio spectral properties. We performed a broad-band (54–1400 MHz) radio spectral index and curvature analysis using LOFAR, uGMRT, and WSRT-APERTIF data. We also derived the radiative age of the detected emission, estimating a maximum age of 250 Myr. The morphology of the source is remarkably intriguing, with two larger, oval-shaped components and a thinner, elongated, and filamentary structure in between, plausibly reminiscent of two aged lobes and a jet. Based on archival Swift as well as SDSS data we performed an X-ray and optical characterisation of the system, whose virial mass was estimated to be ∼7.4 × 1013 M. This places A1318 in the galaxy group regime. Interestingly, the radio source does not have a clear optical counterpart embedded in it, thus, we propose that it is most likely an unusual AGN remnant of previous episode(s) of activity of the AGN hosted by the brightest group galaxy (∼2.6 × 1012 M), which is located at a projected distance of ∼170 kpc in the current epoch. This relatively high offset may be a result of IGrM sloshing sourced by a minor merger. The filamentary morphology of the source may suggest that the remnant plasma has been perturbed by the system dynamics, however, only future deeper X-ray observations will be able to address this question.</p
LOFAR discovery and wide-band characterisation of an ultra-steep spectrum AGN radio remnant associated with Abell 1318
We present the discovery of a very extended (550 kpc) and low-surface-brightness (3.3 µJy arcsec−2 at 144 MHz) radio emission region in Abell 1318. These properties are consistent with its characterisation as an active galactic nucleus (AGN) remnant radio plasma, based on its morphology and radio spectral properties. We performed a broad-band (54–1400 MHz) radio spectral index and curvature analysis using LOFAR, uGMRT, and WSRT-APERTIF data. We also derived the radiative age of the detected emission, estimating a maximum age of 250 Myr. The morphology of the source is remarkably intriguing, with two larger, oval-shaped components and a thinner, elongated, and filamentary structure in between, plausibly reminiscent of two aged lobes and a jet. Based on archival Swift as well as SDSS data we performed an X-ray and optical characterisation of the system, whose virial mass was estimated to be ∼7.4 × 1013 M. This places A1318 in the galaxy group regime. Interestingly, the radio source does not have a clear optical counterpart embedded in it, thus, we propose that it is most likely an unusual AGN remnant of previous episode(s) of activity of the AGN hosted by the brightest group galaxy (∼2.6 × 1012 M), which is located at a projected distance of ∼170 kpc in the current epoch. This relatively high offset may be a result of IGrM sloshing sourced by a minor merger. The filamentary morphology of the source may suggest that the remnant plasma has been perturbed by the system dynamics, however, only future deeper X-ray observations will be able to address this question.</p