SA’s MeerKAT telescope discovers two ‘monster’ galaxies

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The two giant radio galaxies found with the MeerKAT telescope. In the background is the sky as seen in optical light. Overlaid in red is the radio light from the enormous radio galaxies, as seen by MeerKAT. Credit: I Heywood (Oxford/Rhodes/SARAO)
The two giant radio galaxies found with the MeerKAT telescope. In the background is the sky as seen in optical light. Overlaid in red is the radio light from the enormous radio galaxies, as seen by MeerKAT. Credit: I Heywood (Oxford/Rhodes/SARAO)

Two giant radio galaxies have been discovered with South Africa's powerful MeerKAT telescope.

These galaxies are among the largest single objects in the universe and are thought to be quite rare.

The discovery has been published online in the Monthly Notices of the Royal Astronomical Society.

In a statement, the South African Radio Astronomy Observatory (SARAO) says the detection of two of these “monsters” by MeerKAT, in a relatively small patch of sky, suggests these scarce giant radio galaxies may actually be much more common than previously thought.

It notes this gives astronomers vital clues about how galaxies have changed and evolved throughout cosmic history.

Launched in 2018, the South African MeerKAT radio telescope is a precursor to the Square Kilometre Array (SKA), which aims to answer fundamental astrophysical questions about the nature of objects in the Universe.

According to SARAO, construction of the highly anticipated trans-continental SKA telescope is due to commence in SA and Australia in 2021 and continue until 2027. Science commissioning observations could begin as early as 2023, it notes.

Supermassive black holes

On the new discovery, SARAO points out that many galaxies have supermassive black holes residing in their midst.

It explains that when large amounts of interstellar gas start to orbit and fall in towards the black hole, the black hole becomes “active” and huge amounts of energy are released from this region of the galaxy.

In some active galaxies, says the organisation, charged particles interact with the strong magnetic fields near the black hole and release huge beams, or “jets” of radio light. The radio jets of these so-called “radio galaxies” can be many times larger than the galaxy itself and can extend vast distances into intergalactic space, it adds.

Dr Jacinta Delhaize, a research fellow at the University of Cape Town and lead author of the work, says: “Many hundreds of thousands of radio galaxies have already been discovered. However, only around 800 of these have radio jets exceeding 700 kilo-parsecs in size or around 22 times the size of the Milky Way. These truly enormous systems are called giant radio galaxies.

“We found these giant radio galaxies in a region of sky which is only about four times the area of the full moon. Based on our current knowledge of the density of giant radio galaxies in the sky, the probability of finding two of them in this region is extremely small. This means that giant radio galaxies are probably far more common than we thought.”

Dr Matthew Prescott, a research fellow at the University of the Western Cape and co-author of the work, says: “These two galaxies are special because they are much bigger than most other radio galaxies. They are more than two mega-parsecs across, which is around 6.5 million light years or about 62 times the size of the Milky Way. Yet they are fainter than others of the same size.

“We suspect that many more galaxies like these should exist, because of the way we think galaxies should grow and change over their lifetimes.”

Best of its kind

The giant radio galaxies were spotted in new radio maps of the sky created by the MeerKAT International Gigahertz Tiered Extragalactic Exploration (MIGHTEE) survey.

It is one of the large survey projects under way with SA’s MeerKAT radio telescope and involves a team of astronomers from around the world, says SARAO.

It says the two giant radio galaxies have never been identified before, despite the sky region having already been observed by other radio telescopes, such as the Karl G Jansky Very Large Array in the US and the Giant Metre-Wave Radio Telescope in India.

Dr Ian Heywood, a co-author at the University of Oxford, says: “The MeerKAT telescope is the best of its kind in the world. We have managed to identify these giant radio galaxies for the first time because of MeerKAT’s unprecedented sensitivity to faint and diffuse radio light.

“This made it possible to detect features that haven’t been seen before. We found largescale radio jets coming from the central galaxies, as well as fuzzy cloud-like lobes at the ends of the jets.

“We know that these galaxies are several billion light years away, and so it was the discovery of these jets and lobes in the MIGHTEE map that allowed us to confidently identify the objects as giant radio galaxies."

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