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The Conversation
The Conversation
Baerbel Koribalski, Senior research scientist, CSIRO

Astronomers have discovered a rare 'polar ring galaxy' wrapped in a huge ribbon of hydrogen

Jayanne English (U. Manitoba) / N. Deg (Queen’s U.) / The WALLABY team / CSIRO / ASKAP / NAOJ / Subaru Telescope, CC BY-SA

Galaxies come in many shapes and sizes, from giant, slowly rotating ovals and fast-whirling spiral disks to faint ball-shaped blobs and dwarf irregulars. Most large, bright galaxies – including our own Milky Way – are orbited by a gang of much smaller dwarf galaxies.

Most of this we know from optical images, whether taken with small backyard telescopes or much bigger dedicated ground- and space-based telescopes that reveal the light from billions of distant suns. However, as we are discovering, what happens beyond the bright disk of stars may be even more interesting.

With radio telescopes, we can map the distinctive glow of free-floating hydrogen atoms throughout the universe, whether they are inside galaxies, around them, or lurking in the lonely spaces between.

Using CSIRO’s Australian Square Kilometre Array Pathfinder (ASKAP) radio telescope, on Wajarri Yamaji Country in Western Australia, we recently discovered an enormous ribbon of hydrogen encircling a spiral galaxy called NGC 4632. The results are described in a new paper in Monthly Notices of the Royal Astronomical Society.

Galactic leftovers

NGC 4632 appears to be a very rare formation called a “polar ring galaxy”, as the hydrogen ring seems to be rotating over the poles of the galaxy’s disk. The gas in the ring, which makes up about half of the system’s mass, was likely hoovered up from a companion galaxy.

In the words of my colleague Nathan Deg at Queen’s University in Canada, who led the new study:

Polar ring galaxies are some of the most spectacular looking galaxies that we can see. Beyond just being beautiful, they provide important clues about the formation and growth of galaxies over time.

The location and movement of these polar rings can also tell us about the shape of the halo of invisible dark matter astronomers believe surrounds most galaxies.

Left: the hydrogen ring discovered by ASKAP around the spiral galaxy NGC 4632, after removing the bright hydrogen emission detected in the galaxy’s disk. Middle: An optical image of the stellar disk from the Subaru telescope. Right: Composite image showing the stellar disk of NGC 4632 surrounded by the large hydrogen ring. Deg et al. 2023, MNRAS / Jayanne English / Tom Jarrett / Nathan Deg / Wallaby collaborators / CSIRO / ASKAP / NAOJ / Subaru Telescope., CC BY

Spiral galaxies like NGC 4632 are typically rich in cold hydrogen gas. The gas provides the fuel for star formation and typically extends well beyond the bright disk of stars.

In the outskirts of spiral galaxies, we often see that the shape of the gas disk is warped. Why does this happen?


Read more: Experts solve the mystery of a giant X-shaped galaxy, with a monster black hole as its engine


Some warps may be caused by a galaxy wrestling with its neighbours via gravity, stealing gas which collects in the galaxy’s outer disk or forms a polar ring. This is quite a common process by which galaxies grow: our Milky Way galaxy is known to have munched up several small companions.

Hunting hydrogen

An image of the front cover of The Astronomical Journal showing a green and blue image of a galaxy.
Bärbel Koribalski and Magda Arnaboldi’s early results on hydrogen around the polar ring galaxy NGC 4650A made it to the front cover of The Astronomical Journal in 1997. The Astronomical Journal

I was first inspired to study polar ring galaxies in the 1990s by astronomers Penny Sackett and Linda Sparke. Eager to understand what these strange cosmic structures could reveal about dark matter, I teamed up with Magda Arnaboldi to observe hydrogen in the nearby galaxy NGC 4650A using CSIRO’s Australia Telescope Compact Array (ATCA) on Gomeroi Country, outside Narrabri in north-west New South Wales.

Two big projects, the HI Parkes All Sky Survey (HIPASS) and the Local Volume HI Survey (LVHIS), set the scene for much of my current research on galaxies. As plans advanced for the much larger and more powerful ASKAP telescope, I was one of the founders of the Wallaby project, which uses ASKAP’s capabilities to conduct a huge survey of hydrogen in the local universe.

A photo of a woman standing on red soil with a large radio telescope in the background.
Bärbel Koribalski’s first visit to the ASKAP site in Western Australia. One of ASKAP’s 36 dishes dotted over a 6-km diameter area is seen in the background. Cornelia Brem, CC BY

ASKAP began full operations in late 2022. The telescope is located at Inyarrimanha Ilgari Bundara, CSIRO’s Murchison radio astronomy observatory: the traditional name means ‘sharing sky and stars’ in the Wajarri language.

ASKAP now produces such vast amounts of data that we need dedicated software running on the Setonix supercomputer in Perth, not only to produce wide-field images and cubes, but also to sift through them for signs of hydrogen in distant galaxies. We can then conduct more detailed studies of the most interesting galaxies.


Read more: 'WTF?': newly discovered ghostly circles in the sky can't be explained by current theories, and astronomers are excited


Visualising galaxies

Our latest paper highlights two galaxies (of 600 found in our first pilot study) that contain unusual structures.

A screenshot of a data cube showing the hydrogen gas in and around the galaxy NGC 4632.
A 3D visualisation of the Wallaby data cube around NGC 4632, created with the iDaVIE virtual reality software. Deg et al. / iDaVIE, CC BY

As Deg puts it, “finding two potential polar ring galaxies in the Wallaby pilot survey is incredibly exciting, as it suggests that these objects may be more common than previously thought”.

To explore the shapes of galaxies we often use 3D visualisation – and even virtual reality software such as iDaVIE.

We expect the full Wallaby survey will reveal more than 200,000 hydrogen-rich galaxies. Among them will be many more unusual objects like the polar ring around NGC 4632, which can then be used to learn more about dark matter.

The Conversation

Baerbel Koribalski is affiliated with the School of Science at Western Sydney University.

This article was originally published on The Conversation. Read the original article.

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