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A large amount of the Universe is missing. Scientists think they may have found it - BBC Sky at Night Magazine

A lot of normal matter in the Universe is missing. Astronomers think they might have found it, and it's been hiding in plain sight all along.

Jul 15, 2026, 6:09 AMBy Anita Chandran4 min readworld
A large amount of the Universe is missing. Scientists think they may have found it - BBC Sky at Night Magazine

A lot of normal matter in the Universe is missing. Astronomers think they might have found it, and it's been hiding in plain sight all along. If you're a space and astronomy fan, chances are you're already clued-up on dark matter .

This strange, invisible stuff cannot be observed directly, but it makes up more than a quarter of all the matter in the Universe. Dark matter can't be seen, but space scientists can infer its existence because it behaves like a sort of gravity glue, preventing rapidly-rotating galaxies from tearing them selves apart.

In other words, if we add up the amount of all the 'normal' matter in galaxies – stars, dust and things we can actually observe – we find there's not enough mass to produce the gravitational pull to hold galaxies together and prevent them from falling apart as they rotate.

There must be some extra mass that we can't see – and astronomers call this 'dark matter'. Astronomers don't know what dark matter is. And it turns out there's quite a lot they don't know about ordinary matter, either. In fact, quite a lot of 'normal' matter is missing.

But astronomers now think they might have found it – and it's been hiding in plain sight all along. Liam Connor is an assistant professor of astronomy at Harvard University , researching fast radio bursts and AI in astrophysics, and building large radio telescope arrays.

We spoke to him about 'normal' matter at the beginning of the Universe, why it seems to be missing and why scientists think they might have found it. When astronomers talk about normal matter, we’re referring to baryons. By that, we just mean ‘the stuff of atoms’ – things like protons and neutrons.

We can see leftover light from the Big Bang . We call this the cosmic microwave background radiation or CMB. All those atoms should still be here 13. 8 billion years later. But, if you count the stars and planets and dust you can see with your telescope, you’ll find a significant amount of matter appears to be missing.

Hiding! It turns out that most of the matter in the Universe is well outside of the haloes of galaxies. It’s a kind of wispy, diffuse state that we call the intergalactic medium. If you zoomed out on an image of the Universe and kind of blurred your eyes, the intergalactic medium would look like a fuzzy cosmic web.

Fast radio bursts , or FRBs, are pulses of radio waves. They usually last around a millisecond, but can be as short as 10 microseconds – so they’re very fast. They were discovered in 2007, so a relatively ‘new’ cosmic phenomenon. In the last decade, we’ve shown that FRBs are coming from billions of lightyears away.

The order of operations is like this. You see a little blip with a radio telescope, and you can pinpoint where it is on the sky and which galaxy it could be coming from. You then use an optical telescope to follow it up, which gives you a fingerprint of the galaxy.

It tells what type of galaxy hosts the FRB, and also how far away it is. By doing this, we can work out the average density of normal matter in the Universe. A sample of, say, 50 or 100 FRBs tells you a lot about where the missing matter is hiding.

Many people would say neutron stars , which are what’s left behind when a very large star explodes and the remaining matter isn’t quite massive enough to form a black hole . We think FRBs could come from a type of neutron star, which are relatively young and highly magnetised.

Whatever their origin, the fact that you can observe these radio bursts billions of lightyears away means that their source must be extremely luminous. There aren’t many candidates for that type of object.

The most interesting aspect of our research paper is not that we found the missing ordinary matter, but that this matter was contained outside of galaxy haloes. When galaxies form, they slosh matter around in a process called feedback.

Our results suggest that there is a strong and efficient feedback process that sort of smooths out the matter in the Universe. On some level, the fun really begins now. For many years, we didn’t know the large-scale distribution of normal matter in the Universe. We couldn’t even find it.

Now, there are a host of unanswered questions that we can explore, like what is the distribution of gas in the Universe and how does that relate to the growth of supermassive black holes? It also has a huge impact on precision cosmology.

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