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Astronomers publish new sky map detecting hundreds of thousands of previously unknown galaxies

19.02.2019

An international team of more than 200 astronomers from 18 countries has published the first phase of a major new radio sky survey at unprecedented sensitivity using the Low Frequency Array (LOFAR) telescope. The survey reveals hundreds of thousands of previously undetected galaxies, shedding new light on many research areas including the physics of black holes and how clusters of galaxies evolve. A special issue of the scientific journal Astronomy & Astrophysics is dedicated to the first twenty-six research papers describing the survey and its first results.

Radio astronomy reveals processes in the Universe that we cannot see with optical instruments. In this first part of the sky survey, LOFAR observed a quarter of the northern hemisphere at low radio frequencies.


Through LOFAR, the researchers have discovered that the galaxy cluster Abell 1314 was created by merging with another cluster. Abell 1314 is 460 million light-years from Earth.

Amanda Wilber/LOFAR Surveys Team

At this point, approximately ten percent of that data is now made public. It maps three hundred thousand sources, almost all of which are galaxies in the distant Universe; their radio signals have travelled billions of light years before reaching Earth.

Black holes

Huub Röttgering, Leiden University (The Netherlands): “If we take a radio telescope and we look up at the sky, we see mainly emission from the immediate environment of massive black holes. With LOFAR we hope to answer the fascinating question: where do those black holes come from?” What we do know is that black holes are pretty messy eaters. When gas falls onto them they emit jets of material that can be seen at radio wavelengths.

Philip Best, University of Edinburgh (UK), adds: “LOFAR has a remarkable sensitivity and that allows us to see that these jets are present in all of the most massive galaxies, which means that their black holes never stop eating.”

Clusters of galaxies

Clusters of galaxies are ensembles of hundreds to thousands of galaxies and it has been known for decades that when two clusters of galaxies merge, they can produce radio emission spanning millions of light years. This emission is thought to come from particles that are accelerated during the merger process. Amanda Wilber, University of Hamburg (Germany), elaborates:

“With radio observations we can detect radiation from the tenuous medium that exists between galaxies. This radiation is generated by energetic shocks and turbulence. LOFAR allows us to detect many more of these sources and understand what is powering them."

Annalisa Bonafede, University of Bologna and INAF (Italy), adds: “What we are beginning to see with LOFAR is that, in some cases, clusters of galaxies that are not merging can also show this emission, albeit at a very low level that was previously undetectable. This discovery tells us that, besides merger events, there are other phenomena that can trigger particle acceleration over huge scales.”

Magnetic fields

“Magnetic fields pervade the cosmos, and we want to understand how this happened. Measuring magnetic fields in intergalactic space can be difficult, because they are very weak. However, the unprecedented accuracy of the LOFAR measurements has allowed us to measure the effect of cosmic magnetic fields on radio waves from a giant radio galaxy that is 11 million light years in size. This work shows how we can use LOFAR to help us understand the origin of cosmic magnetic fields", explains Shane O'Sullivan, University of Hamburg.

High-quality images

Creating low-frequency radio sky maps takes both significant telescope and computational time and requires large teams to analyse the data. “LOFAR produces enormous amounts of data - we have to process the equivalent of ten million DVDs of data.

The LOFAR surveys were recently made possible by a mathematical breakthrough in the way we understand interferometry”, says Cyril Tasse, Observatoire de Paris - Station de radioastronomie à Nançay (France).

“We have been working together with SURF in the Netherlands to efficiently transform the massive amounts of data into high-quality images. These images are now public and will allow astronomers to study the evolution of galaxies in unprecedented detail”, says Timothy Shimwell, Netherlands Institute for Radio Astronomy (ASTRON) and Leiden University.

SURF's compute and data centre located at SURFsara in Amsterdam runs on 100 percent renewable energy and hosts over 20 petabytes of LOFAR data.

“This is more than half of all data collected by the LOFAR telescope to date. It is the largest astronomical data collection in the world. Processing the enormous data sets is a huge challenge for scientists. What normally would have taken centuries on a regular computer was processed in less than one year using the high throughput compute cluster (Grid) and expertise”, says Raymond Oonk (SURFsara).

LOFAR

The LOFAR telescope, the Low Frequency Array, is unique in its capabilities to map the sky in fine detail at metre wavelengths. LOFAR is operated by ASTRON in The Netherlands and is considered to be the world’s leading telescope of its type. “This sky map will be a wonderful scientific legacy for the future. It is a testimony to the designers of LOFAR that this telescope performs so well”, says Carole Jackson, Director General of ASTRON.

The next step

The 26 research papers in the special issue of Astronomy & Astrophysics were done with only the first two percent of the sky survey. The team aims to make sensitive high-resolution images of the whole northern sky, which will reveal 15 million radio sources in total. “Just imagine some of the discoveries we may make along the way. I certainly look forward to it”, says Jackson. “And among these there will be the first massive black holes that formed when the Universe was only a ‘baby’, with an age a few percent of its present age”, adds Röttgering.

More information:

Institutes publishing the results
The Netherlands: ASTRON, the NOVA (Netherlands Research School for Astronomy) institutes at Leiden University, Groningen University, University of Amsterdam and Radboud University Nijmegen, SURF/SURFsara, SRON, Ampyx Power B.V, JIVE
United Kingdom: University of Hertfordshire, University of Edinburgh, Open University, University of Oxford, University of Southampton, University of Bristol, University of Manchester, The Rutherford Appleton Laboratory, University of Portsmouth, University of Nottingham
Italy: National Institute for Astrophysics (INAF), University of Bologna
Germany: Hamburg University, Ruhr-University Bochum, Karl Schwarzschild Observatory Tautenburg, European Southern Observatory, University of Bonn, Max Planck Institut für Extraterrestrische Physik, Bielefeld University, Max Planck Institute for Radio Astronomy
Poland: Jagiellonian University, Nicolaus Copernicus University Toruń
Ireland: University College Dublin
Australia: CSIRO
USA: Harvard University, Naval Research Laboratory, University of Massachusetts
India: Savitribai Phule Pune University
Canada: University of Montreal, University of Calgary, Queen’s University
South Africa: University of Western Cape, Rhodes University, SKA South Africa
France: Observatoire de Paris PSL, Station de radioastronomie de Nançay, Université Côte d'Azur, Université de Strasbourg, Université d’Orléans, CNRS-INSU
Denmark: University of Copenhagen
Iceland: University of Iceland
Mexico:Universidad de Guanajuato
Sweden: Chalmers University
Uganda: Mbarara University of Science & Technology
Spain: Universidad de La Laguna

LOFAR
The international LOFAR telescope (ILT) consists of a European network of radio antennas, connected by a high-speed fibre optic network spanning seven countries. LOFAR was designed, built and is now operated by ASTRON (Netherlands Institute for Radio Astronomy), with its core located in Exloo in the Netherlands. LOFAR works by combining the signals from more than 100,000 individual antenna dipoles, using powerful computers to process the radio signals as if it formed a ‘dish’ of 1900 kilometres diameter. LOFAR is unparalleled given its sensitivity and ability to image at high resolution (i.e. its ability to make highly detailed images), such that the LOFAR data archive is the largest astronomical data collection in the world and is hosted at SURFsara (The Netherlands), Forschungszentrum Juelich (Germany) and the Poznan Super Computing Center (Poland). LOFAR is a pathfinder of the Square Kilometre Array (SKA), which will be the largest and most sensitive radio telescope in the world.

Images and video
Images and audiovisual material can be downloaded at: https://www.dropbox.com/sh/hfcfb9a6sblho8m/AAA7s1lnMsB5Z3x71qX9CptMa?dl=0
More images are available on https://www.lofar-surveys.org/gallery_preview.html
Some of the videos in Dropbox are also available on YouTube:
• LOFAR Surveys full: https://youtu.be/EBA8GYzr3Gc
• LOFAR Surveys short: https://youtu.be/RuZYNILHWVE
• LOFAR fly through the radio Universe: https://youtu.be/vzq931ZukYI
• LOFAR difference between radio and optical detection: https://youtu.be/4e-1ug_bxEc
All the research papers in the special issue of Astronomy & Astrophysics can be found at: https://www.aanda.org/component/toc/?task=topic&id=986

Rafaël Mostert (Leiden University) has made a website where you can explore the most common shapes of the 320,000 radio objects that the LOFAR Survey has detected so far: http://rafaelmostert.com/lofar/som.php. See the difference between radio, optical and infrared versions of these objects. On the page http://rafaelmostert.com/lofar/outliers.php you can see the most uniquely shaped radio-objects within the survey, some of which have yet to be studied!

Photos and drone video footage of the LOFAR telescope core station in Exloo in the Netherlands can be downloaded on https://nfra-my.sharepoint.com/:f:/g/personal/werp_astron_nl/EkqSlIYQ5g5AoO9yEN-... The material is free to use, but please credit ASTRON.

Wissenschaftliche Ansprechpartner:

Press contact
Frank Nuijens, ASTRON Head of Communications
E-mail: nuijens@astron.nl
Mobile: +31 6 111 77 427
www.astron.nl

Weitere Informationen:

https://www.dropbox.com/sh/hfcfb9a6sblho8m/AAA7s1lnMsB5Z3x71qX9CptMa?dl=0 Images and audiovisual material can be downloaded


https://www.lofar-surveys.org/gallery_preview.html More images


https://www.aanda.org/component/toc/?task=topic&id=986 research papers


https://youtu.be/EBA8GYzr3Gc LOFAR Surveys

Sandra Sieraad | idw - Informationsdienst Wissenschaft

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