Astrum Space - We've Been Receiving Another WTF Radio Signal From an Object 1,000,000 LY Wide

Episode Date: October 7, 2025

The discovery of “Odd Radio Circles” in deep space has scientists stumped. ▀▀▀▀▀▀Astronomers are captivated by a new cosmic mystery: strange, glowing circles in space that defy all exp...lanation. Known as "Odd Radio Circles", or ORCs, these colossal structures are a million light-years wide and are changing everything we thought we knew about the cosmos. In this video, we’re delving into the leading theories to explain where these giant rings came from. ▀▀▀▀▀▀If you love learning about science as much as I do, head to http://brilliant.org/astrum to start for free. You'll also receive 20% off a premium annual subscription, giving you unlimited access to everything on Brilliant.▀▀▀▀▀▀Astrum's newsletter has launched! Want to know what's happening in space? Sign up here: ⁠https://astrumspace.kit.com⁠A huge thanks to our Patreons who help make these videos possible. Sign-up here: ⁠https://bit.ly/4aiJZNF

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Starting point is 00:00:01 Introducing the new best skin ever ultra-slim precision concealer from Sephora Collection. It's full coverage with a matte finish and perfect for any look, whether you're building it up for a full glam moment or targeting correction for a more natural vibe. At only $12, it's great for affordable touch-ups on the go. Get this new must-have concealer at Sephora or at Sephora.com today. That's what radio astronomer Anna Kapinska labeled the image of an enormous, mysterious blob she first spotted in 2019. Billions of years from Earth, in the realms of deep space, it appeared like a ghostly ring of smoke. A glowing oddity of radio waves that didn't appear to match up with any known supernova remnant or galactic interaction.
Starting point is 00:00:59 What in the world, in the universe, could this be? It may have been unusual, but this object was not alone. Named odd radio circles, or orcs, the objects we have found seem to encompass everything we struggle to explain in the cosmos. Five orcs have been confirmed since Kapinska's first finding, and several more blobs may fit the profile. What cosmic force is so powerful that it could sculpt a ring of energy a million light years wide, so vast it dwarfs our Milky Way by a factor of ten?
Starting point is 00:01:40 Are these radio rings the relics of galactic rebirth, or the dying echoes of something we have yet to comprehend? And why haven't we found more of them? I'm Alex McCulligan, and you're watching Astrum. Join me today as we attempt to unravel one of modern astronomy's greatest mysteries, and reveal the four leading hypotheses that could unlock the origin of these objects so odd they defy even the universe's standards. This mystery first began as a result of modern technology.
Starting point is 00:02:19 Around the turn of the new millennium, technological advancements in radio astronomy drastically increased the number of known radio sources from just a few hundred thousand to a a couple million. For decades, nobody was able to significantly increase that number. That is, until recently. Radio astronomy was due for another upgrade, and Australia's National Science Agency, the Commonwealth Scientific and Industrial Research Organization, oversaw the launch of the revolutionary Australian Square Kilometer Array Pathfinder Telescope, or ASCAP, one of several new radio telescopes coming online at the time. With 36 radio dishes that are each 12 meters across, what makes the Western Australia radio telescope special is its phased array feed, which allows
Starting point is 00:03:14 it to image huge areas of the sky at once, unlike the previous generation of radio telescopes. Ascaps' field of view is an impressive 30 square degrees, the equivalent to the surface area of about 150 moons, as seen from Earth. The phased array feed allows astronomers to ignore radio signals from things like satellites, which can otherwise create blind spots for radio telescope receivers. With this new generation of telescopes, radio astronomers are able to detect even faint, diffuse objects. Western Sydney University professor Ray Norris of Zero, later leading the original org discovery,
Starting point is 00:03:56 predicted that the Australian Telescope's evolutionary map of the universe project, or EMU, would be part of an extraordinary increase in our knowledge of radio sources across the universe. The project is named after the EMU in the sky, a constellation of dark nebulae rather than stars, in the Milky Way galaxy, which has been recognized in Aboriginal astronomy for generations. All of the radio sources discovered up to that point by every radio telescope in the entire history of radio astronomy amounted to about 2.5 million sources, and the EMU project alone was expected to increase that total to 70 million radio sources. Keep in mind, that only represents the discoveries that were expected to come from just one
Starting point is 00:04:48 of the new radio astronomy telescopes. Norris was certain that all of this new data would deliver some major surprises. And it did, much sooner than anyone expected. The EMU project looked at large areas of the sky that other telescopes had not imaged yet and collected vast catalogs of data, so much that scientists expected they would need the help of machine learning to sift through it all. But it was in the process of browsing through some of the project's preliminary images that Kapinska, the radio astronomer who discovered Orks,
Starting point is 00:05:27 would first notice the oddly shaped radio emissions, using her old-fashioned human eyes. To me, that makes this discovery all the more special. Even with vast amounts of data and machine learning tools, this is an example of how human curiosity will always be an integral part of the scientific process. While browsing these early Emu images, Kapinska started to notice some strange shapes that she couldn't identify as any known space object. On an image of one of these odd shapes, a circle of radio missions like a giant smoke ring floating in distant space, she wrote the label WTF, encapsulating just how baffling this was. Kapinska had never seen anything like it.
Starting point is 00:06:19 After sharing her strange discovery with colleagues, a team of radio astronomers including Norris and Emil Lenk began sifting through the images, searching for more of these circular radio blobs. Leng found a second blob just a few days after the initial discovery, and the team eventually coined the name Odd Radio Circles. At first they weren't even sure if these were real objects or just some kind of artifact error from the telescope, but they were able to use other telescopes to locate the orcs, confirming that these odd radio circles were in fact real.
Starting point is 00:06:59 The question that followed was, of course, what are these things? Luckily we've been able to learn a bit more about orcs since Kapinska first noticed one. This is an image of Ork 1 from the Emu Pilot Survey, a blurry grey scale blob. But luckily, the Emu team also produced this second, colourised and enhanced image that helps to bring out the less obvious features while still maintaining the original resolution. In the color image, Ork 1 now appears as a hazy green blue blob. Because this hazy blob is only actually visible in radio wavelengths, the color in this
Starting point is 00:07:43 image had to be added in so that we can visualize it. It also helps us see more distinct features within the Ork structure. least a billion light years away in deep space. Initial estimate suggested that Ork 1 may have a diameter of around 1 million light years. But more recently, observations have indicated that it may actually be as wide as 2 million light years across. That's 20 times the width of our own galaxy. So we know how big orcs can be and how distant they are, but what are they? At first, Some thought these strange rings might be the remnants of a powerful supernova.
Starting point is 00:08:28 But the conditions were all wrong. For one thing, we typically find supernova remnants near the galactic plane, and all of the orcs we've identified are too far away from it. Not only that, but it appears that some of these orcs might have galaxies in their centers, which is not something we see with supernova remnants. What's more, the scale is all wrong too. Most supernova remnants are a few dozen light years across, but these orc rings are far, far larger. Big enough to encompass entire galaxies at their center, the orcs we've observed so far
Starting point is 00:09:07 are hundreds of thousands, up to two million light years across. These are not supernova remnants. Orks must be something else. Orks could also be something we are already familiar with, like the jets from a radio, galaxy, but the vast distance, or maybe an odd angle, might obscure our ability to identify them. Since the initial discovery of Ork 1, astronomers have had the chance to observe it with additional telescopes, revealing an object that appears to be at the center of the circle that can be seen in both visible and infrared light. Using the South African Miacat Radio Telescope, an array of 64
Starting point is 00:09:52 interlinked receptors, Norris and his team observed Ork 1 for 10 hours to create an image of the circle. They overlaid that on optical data from the Dark Energy Survey to reveal an elliptical galaxy in the center of the Ork. With this, they were able to estimate the central galaxy's distance from Earth at around 5 billion light years away. Not only did they find this This central elliptical galaxy, but the high sensitivity image also revealed a complex in a structure of knots and arcs, with additional galaxies found at these knots. If Norris and his team were correct, and this elliptical galaxy is indeed located near the center of Ork 1, then it might have had a hand in creating this radio circle.
Starting point is 00:10:43 However, it's also possible that the galaxy's location is a coincidence, as it may just be near the apparent center of the orc, rather than the actual center. Armed with this new image and information, in their 2022 paper, Norris and his team considered three different origin stories for the org, with the data not favoring one hypothesis over another. The first possibility was that Ork One's spherical shell was the result of a cataclysmic event in the elliptical host galaxy, like the merging of two supermassive black holes, for example. In this scenario, a merger of two supermassive black holes would send a shockwave out in all directions,
Starting point is 00:11:33 accelerating electrons in the intergalactic medium. This could result in a bubble of radio emissions, which could appear to us as a circle of radio emissions with a brightened edge or ring. If this were the case, we would expect the Ork to contain a supermassive black hole or an active galactic nucleus. And not only does Ork 1 show evidence of a radio-loud galactic nucleus like we would expect if this hypothesis were correct, but so do two other absurdity. observed orcs, lending further credibility to this hypothesis.
Starting point is 00:12:12 The second possibility offered by Norris and his team for Ork One's origin was that it could simply be radio jets from a Radio Loud active galactic nucleus, or AGM, viewed and on. Radio Loud AGMs are a type of galaxy that emit large amounts of energy from its nucleus in the form of two plasma jets, as matter falls into a superman. passive black hole at their center. And as I mentioned, we already know that ANGs are present in many of the orcs we have observed thus far. If we were to view this kind of system end on, where the two jets were superimposed, it could
Starting point is 00:12:53 create the appearance of what we see with Ork 1, lobes of radio emissions superimposed with a host galaxy at the center. we still need 3D simulations to help us work out whether or not these particular ANGs are producing radio jets, and if so, whether or not we are viewing them head on. The third and final hypothesis for an origin story could be that the radio circle of Ork 1 is caused by what's called a starburst termination shock. In this explanation, Millions of stars would have been born during a brief, intense period of star formation in the elliptical host galaxy.
Starting point is 00:13:40 During this time, new stars would have been born at a rate much higher than normal, and would have lasted for just a few tens of millions of years, just a blink on the cosmic time scale. These stars would emit solar wind that expands out into space over billions of years, exciting electrons, and creating a spherical radio emission bubble like what we see in Oakhuan. Ambition comes in all shapes and sizes. At First Citizens Bank, we roll with your goals, because we're built for what you're building. Fit for your ambition for Citizens Bank. No one goes to Hank's first spreadsheets. They go for a darn good pizza. Lately though, the shop's been quiet, so Hank decides to bring back the $1 slice.
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Starting point is 00:14:52 While the team modeled this possibility in more detail than the first two hypotheses for the formation of Ork 1, showing mathematically how this scenario was plausible, Norris was clear that the data did not favour this explanation over the others. So while we do have several promising ideas, the origin of Ork 1 is still as mysterious as the odd radio circle itself. As each new orc has been discovered, the only thing we seem to know for sure is that not all orcs are created equally.
Starting point is 00:15:27 After all, the name Odd Radio Circles is meant as a descriptive name, like an umbrella term for any odd radio circle that can't be described by any existing type of object. So while all orcs may include odd radio circles, each individual orc may have its own unique origin story. The discovery of orc two and three, the second and third odd radio circles to be identified, didn't do much to help solve the mystery of how orcs are created. In fact, they introduced even more questions. Seen in this grey scale image, the two orcs appear to be very close to each other, nearly touching.
Starting point is 00:16:09 They are roughly the same size, but on the right side of the image, orc 2 is bright and clearly ring-shaped, while orc 3, located to the left, is faint and appears more like a disc. In fact, orc 3 may not even be recognizable in the grey-scale emu image if it weren't for the light grey speckles seeming to cluster together into a circular shape right next to the more distinct ring shape of Ork 2. Now take a look at this colour image of Ork 2 and Ork 3. The diffuse radio emission has been enhanced in red and overlaid on top of the original radio pattern in green.
Starting point is 00:16:50 You can see the obscured green colour behind the red glow, where the ring shape of Ork 2 is located. And to the left you can see its fainter sister circle. of Ork 3, only visible in diffuse red. The proximity of these orcs would suggest that they are related somehow, but if that's the case, why do they appear so different? As much as I'd like to tell you that we've solved this curious case of Ork 2 and Ork 3 since their discovery, which was published in 2021,
Starting point is 00:17:25 the nature of these sister orcs remains an unsolved mystery to this day. Before moving on to the theories for Ork 4's origin, I've got to mention Ork 5, which was discovered in Australian Square Kilometer Array Pathfinder data in 2021. While we don't have any leading theories for Ork 5 specifically, this Ork was found to have a central elliptical galaxy, like Orks 1 and 4. And interestingly, Ork 5 was the only one found to have both this central galaxy and the same. and a nearby neighboring galaxy found at approximately the same distance from the orc ring, which suggests these two galaxies are likely interacting gravitationally. While there may be some repeating characteristics, for every orc we've confirmed so far, it seems that each one has their own unique qualities.
Starting point is 00:18:22 Of course, as we discover and confirm more orcs, it may be that this won't be the case in the future. But with so few orcs and so little observational evidence, it's been difficult for scientists to nail down one theory for their origin. And that brings us to Ork 4, dubbed the Cloverleaf Ork, because of its irregular shape. Of course, this turned out to be another unique case. First identified in archival data from the giant meterwave radio telescope, The Cloverleaf Ork would end up being the most extensively observed and imaged odd radio circle to date,
Starting point is 00:19:04 having been observed in radio, x-ray and visible wavelengths. In this stunning image of the Cloverleaf Ork, wavelengths from several observations have been combined with radio emissions shown in red, optical wavelengths depicted in white to yellow, and x-ray emissions in blue. This orc resides some 600 million light years from Earth and stretches more than 325,000 light years across, a little more than three times the width of our galaxy.
Starting point is 00:19:37 In 2024, astronomers at the WM Keck Observatory in Hawaii detected strong fluorescent light from oxygen atoms coming from the cloverleaf orc, stretching across 130,000 light years of the orc's massive structure. This oxygen two nebula of heated, compressed gas, also called shocked gas, seemed to have been created by a fast-moving explosion, according to Alison Koyle, astronomer and astrophysicist at the University of California, San Diego, who led the research team and conducted this study of Ork 4. Since the Cloverleaf Ork also has a central elliptical galaxy, Coil stated that one possible
Starting point is 00:20:22 explanation was that this orc could have been formed by a starburst termination shock event, one of the three possible hypotheses for the origin of Ork 1. The team was able to calculate the age of the stars inside the galaxy in the Cloverleaf Ork and found that they are 6 billion years old. Using this and other data, they ran a simulation that showed how a similar structure to the Cloverleaf Ork could have been created by a starburst event that caused a a high mass outflow rate. Both the radio emission sphere and this gas nebula sphere could have been blown out by the central
Starting point is 00:21:02 galaxy by the shockwave of combined supernova explosions. While this is an exciting possibility, especially because of its similarities with one of the Ork 1 hypothesis, it's not the only possibility. That same year, using the European Space Agency's XM-M-Newton X-ray telescope, a team led by scientists at the Max Planck Institute for Extraterrestrial Physics in Germany, detected diffuse X-ray emissions for the first time in an odd radio circle, coming from the Cloverleaf Ork. Based on their observations, the same team that observed the X-ray emission, led by German astrophysicists, Bulbul and Chang, hypothesized that the Cloverleaf-Leaf Ork may be linked to a
Starting point is 00:21:48 cosmic dance between two groups of galaxies. The X-ray observations suggest that the Cloverleaf orc could be the result of a messy merger of two galaxy groups that gravitated towards each other. This type of a galaxy merger could have created shockwaves that would leave behind a gigantic bubble of radio emissions, like what we've seen in observations of this orc. However, a lot is still unknown, and it's unclear why this sense. of galactic groups would produce such an org, while other similar galactic group mergers don't seem to leave behind the same gigantic bubble of radio emissions.
Starting point is 00:22:31 As you can see, the mystery of how orcs came to be is far from solved. In fact, it's still up for debate whether the clover leaf orc is in fact an orc at all, seeing as it is more of a diffuse cloud and lacks the telltale bright edges of radio emissions. Norris points out that similar cloverleaf shaped radio clouds have been observed in other galaxy groups, not all of which are associated with orcs. The key to resolving which objects are part of the orc family, and which are not, is more data. Deeper radio and x-ray observations may be able to help identify more complex structures and help differentiate between actual and near-a-a-orks.
Starting point is 00:23:18 Luckily, several other candidate orcs have been identified, and they may offer additional data for astronomers to study and compare to the already known cases. Now, instead of WTF, the side note on these strange radio missions has a proper name, orcs. But even though the jury is still out on how orcs came to be, we are constantly gaining new insights from the likes of Project Emu and ASCAP. While studying EMU data from a nearby dwarf galaxy called the small Magellanic Cloud, astronomers spotted the ghostly remains of two supernova remnants that were previously unknown
Starting point is 00:24:01 to science, adding to our catalogue of celestial objects. In addition to those, another nearby supernova remnant was found by using the EMU survey in 2023, and turned out to be one of the closest supernova remnants to our Earth at just 4,200 light years away. This supernova remnant, known as this, was found to be about 130 light years across, and is thought to be just 13,000 years old. Not only has Emu aided in the discovery of previously unknown supernova remains, it is also paving the way for using machine learning, and the power of citizen science to identify and
Starting point is 00:24:44 catalog some 4 million radio sources, which could include orcs. as part of a project called the Radio Galaxy Zoo Emu or RGZ Emu. As of 2025, the project has had more than 2,000 volunteers and has helped to classify more than 92,000 sources. But the coolest part, you can join in and be part of the citizen science project yourself. To learn more, visit Zooniverse.org and search for the Radio Galaxy Zoo Emu Project. As our tools continue to improve, I believe that astronomers are bound to discover more orcs and even more objects we don't know even exist yet.
Starting point is 00:25:29 We may learn not just how these radio rings formed, but we could also learn more about the life cycles of galaxies, the effects of starburst events, and how we may be able to trace gas from ancient events far outside their galaxy of origin. For now though, the mystery of the origin of these odd radio circles persists, although with several promising hypotheses, and to unravel this mystery, astronomers will have to conduct cosmic archaeology on a scale almost too big to fathom. For now, though, the mystery of the origin of these odd radio circles persists, although with several promising hypotheses, and to unravel this mystery, astronomers will have to conduct
Starting point is 00:26:16 cosmic archaeology on a scale almost too big to fathom. Solving the mystery of orcs isn't just about finding them in the sky. It's about analyzing mountains of data, spotting subtle patterns, and testing ideas against the evidence. It might seem complex, but it's a skill set anyone can develop with the help from today's sponsor, Brilliant. Brilliant is an online learning platform that helps you become a better thinker and problem They've got thousands of interactive lessons in maths, science, programming, data analysis, and AI, including some brand new courses I'm really excited to try, like mathematical thinking and reasoning with logic.
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Starting point is 00:27:28 You'll also get 20% off an annual premium subscription, which gives you unlimited daily access to everything on Brilliant. Thanks for watching. Making this video required some long-term planning and work, which would be a long-term planning and work, we were only able to do thanks to the consistency and sustainability of your memberships as Astrom Nauts on Patreon. A huge thank you to everyone who has signed up. And if you'd like us to make more videos like this, you can join with the link down below.
Starting point is 00:27:58 When you join, you'll be able to watch the whole video ad-free, see your name in the credits, and submit questions to our team. Meanwhile, click the link to this playlist for more Astrom content. I'll see you next time.

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