Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFAR
The technique of Faraday tomography is a key tool for the study of magnetised plasmas in the new era of broadband radio-polarisation observations. In particular, observations at metre wavelengths provide significantly better Faraday depth accuracies compared to traditional centimetre-wavelength obse...
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MDPI AG
2018-11-01
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| Series: | Galaxies |
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| Online Access: | https://www.mdpi.com/2075-4434/6/4/126 |
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doaj-0924381f82644992a1812fd589adecfd2020-11-25T01:09:06ZengMDPI AGGalaxies2075-44342018-11-016412610.3390/galaxies6040126galaxies6040126Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFARShane P. O’Sullivan0Marcus Brüggen1Cameron L. Van Eck2Martin J. Hardcastle3Marijke Haverkorn4Timothy W. Shimwell5Cyril Tasse6Valentina Vacca7Cathy Horellou8George Heald9Hamburger Sternwarte, Universität Hamburg, Gojenbergsweg 112, D-21029 Hamburg, GermanyHamburger Sternwarte, Universität Hamburg, Gojenbergsweg 112, D-21029 Hamburg, GermanyDunlap Institute for Astronomy and Astrophysics, University of Toronto, 50 St. George Street, Toronto, ON M5S 3H4, CanadaCentre for Astrophysics Research, School of Physics, Astronomy and Mathematics, University of Hertfordshire, College Lane, Hatfield AL10 9AB, UKDepartment of Astrophysics/IMAPP, Radboud University Nijmegen, P.O. Box 9010, 6500 GL Nijmegen, The NetherlandsASTRON, The Netherlands Institute for Radio Astronomy, Postbus 2, 7990 AA Dwingeloo, The NetherlandsGEPI & USN, Observatoire de Paris, Université PSL, CNRS, 5 Place Jules Janssen, 92190 Meudon, FranceINAF—Osservatorio Astronomico di Cagliari, Via della Scienza 5, 09047 Selargius (CA), ItalyDepartment of Space, Earth and Environment, Chalmers University of Technology, Onsala Space Observatory, 43992 Onsala, SwedenCSIRO Astronomy and Space Science, P.O. Box 1130, Bentley 6102, AustraliaThe technique of Faraday tomography is a key tool for the study of magnetised plasmas in the new era of broadband radio-polarisation observations. In particular, observations at metre wavelengths provide significantly better Faraday depth accuracies compared to traditional centimetre-wavelength observations. However, the effect of Faraday depolarisation makes the polarised signal very challenging to detect at metre wavelengths (MHz frequencies). In this work, Faraday tomography is used to characterise the Faraday rotation properties of polarised sources found in data from the LOFAR Two-Metre Sky Survey (LoTSS). Of the 76 extragalactic polarised sources analysed here, we find that all host a radio-loud AGN (Active Galactic Nucleus). The majority of the sources (∼64%) are large FRII radio galaxies with a median projected linear size of 710 kpc and median radio luminosity at 144 MHz of <inline-formula> <math display="inline"> <semantics> <mrow> <mn>4</mn> <mo>×</mo> <msup> <mn>10</mn> <mn>26</mn> </msup> </mrow> </semantics> </math> </inline-formula> W Hz<inline-formula><math display="inline"><semantics><msup><mrow></mrow> <mrow> <mo>−</mo> <mn>1</mn> </mrow> </msup> </semantics> </math> </inline-formula> (with ∼13% of all sources having a linear size >1 Mpc). In several cases, both hotspots are detected in polarisation at an angular resolution of ∼20<inline-formula><math display="inline"><semantics><msup><mrow></mrow><mrow><mo>″</mo> </mrow> </msup> </semantics> </math> </inline-formula>. One such case allowed a study of intergalactic magnetic fields on scales of 3.4 Mpc. Other detected source types include an FRI radio galaxy and at least eight blazars. Most sources display simple Faraday spectra, but we highlight one blazar that displays a complex Faraday spectrum, with two close peaks in the Faraday dispersion function.https://www.mdpi.com/2075-4434/6/4/126magnetic fieldsFaraday tomographylarge-scale structureAGNMilky Way |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Shane P. O’Sullivan Marcus Brüggen Cameron L. Van Eck Martin J. Hardcastle Marijke Haverkorn Timothy W. Shimwell Cyril Tasse Valentina Vacca Cathy Horellou George Heald |
| spellingShingle |
Shane P. O’Sullivan Marcus Brüggen Cameron L. Van Eck Martin J. Hardcastle Marijke Haverkorn Timothy W. Shimwell Cyril Tasse Valentina Vacca Cathy Horellou George Heald Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFAR Galaxies magnetic fields Faraday tomography large-scale structure AGN Milky Way |
| author_facet |
Shane P. O’Sullivan Marcus Brüggen Cameron L. Van Eck Martin J. Hardcastle Marijke Haverkorn Timothy W. Shimwell Cyril Tasse Valentina Vacca Cathy Horellou George Heald |
| author_sort |
Shane P. O’Sullivan |
| title |
Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFAR |
| title_short |
Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFAR |
| title_full |
Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFAR |
| title_fullStr |
Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFAR |
| title_full_unstemmed |
Untangling Cosmic Magnetic Fields: Faraday Tomography at Metre Wavelengths with LOFAR |
| title_sort |
untangling cosmic magnetic fields: faraday tomography at metre wavelengths with lofar |
| publisher |
MDPI AG |
| series |
Galaxies |
| issn |
2075-4434 |
| publishDate |
2018-11-01 |
| description |
The technique of Faraday tomography is a key tool for the study of magnetised plasmas in the new era of broadband radio-polarisation observations. In particular, observations at metre wavelengths provide significantly better Faraday depth accuracies compared to traditional centimetre-wavelength observations. However, the effect of Faraday depolarisation makes the polarised signal very challenging to detect at metre wavelengths (MHz frequencies). In this work, Faraday tomography is used to characterise the Faraday rotation properties of polarised sources found in data from the LOFAR Two-Metre Sky Survey (LoTSS). Of the 76 extragalactic polarised sources analysed here, we find that all host a radio-loud AGN (Active Galactic Nucleus). The majority of the sources (∼64%) are large FRII radio galaxies with a median projected linear size of 710 kpc and median radio luminosity at 144 MHz of <inline-formula> <math display="inline"> <semantics> <mrow> <mn>4</mn> <mo>×</mo> <msup> <mn>10</mn> <mn>26</mn> </msup> </mrow> </semantics> </math> </inline-formula> W Hz<inline-formula><math display="inline"><semantics><msup><mrow></mrow> <mrow> <mo>−</mo> <mn>1</mn> </mrow> </msup> </semantics> </math> </inline-formula> (with ∼13% of all sources having a linear size >1 Mpc). In several cases, both hotspots are detected in polarisation at an angular resolution of ∼20<inline-formula><math display="inline"><semantics><msup><mrow></mrow><mrow><mo>″</mo> </mrow> </msup> </semantics> </math> </inline-formula>. One such case allowed a study of intergalactic magnetic fields on scales of 3.4 Mpc. Other detected source types include an FRI radio galaxy and at least eight blazars. Most sources display simple Faraday spectra, but we highlight one blazar that displays a complex Faraday spectrum, with two close peaks in the Faraday dispersion function. |
| topic |
magnetic fields Faraday tomography large-scale structure AGN Milky Way |
| url |
https://www.mdpi.com/2075-4434/6/4/126 |
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