Italian scientists managed to freeze pure light and make it solid in revolutionary first
- Scientists have made a discovery that has changed the laws of physics
- They’ve managed to freeze pure light and create a supersolid
- A supersolid had only been previously seen in super-frozen atomic gases
Published on Mar 10, 2025 at 3:19 PM (UTC+4)
by Daisy Edwards
Last updated on Mar 10, 2025 at 3:19 PM (UTC+4)
Edited by
Tom Wood
Scientists in Italy have managed to change everything we know about physics and the world itself by freezing pure light and making it solid.
This type of supersolid has only ever been seen in ultracold atomic gases, and it has not only shocked the world, but the scientists themselves, too.
A supersolid is a strange purgatory of a state of matter that has properties of both a solid and a liquid and needs extremely specific conditions to form.
No, this isn’t from a Marvel movie, but this has completely changed the future of quantum mechanics, photonics and science as a whole.
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Scientists managed to freeze pure light
In a new discovery published in Nature, a group of Italian scientists – specifically nanotechnologists and physicists – shared that they have changed science as we know it.
The scientists have done something that has never been done before and managed to freeze pure light – light had become a supersolid.
A supersolid is a state of matter that becomes a solid crystalline structure, but also flows without resistance, which is a superfluid property.
In the past, supersolids like this have only been seen in super-frozen atomic gases and they need very specific conditions of temperatures close to absolute zero.
The ability to freeze pure light has challenged conventional views on the laws of nature.
DIY your own frozen light
If you have a laser beam and a gallium arsenide structure lying about, then you will be able to freeze your own light.
All joking aside, these scientists have devoted their whole lives to reaching this new scientific boundary.
The gallium arsenide structure had precisely engineered microscopic ridges and the interaction between the light and material led to tiny hybrid light and matter particles called polaritons, which were the things showing supersolid properties.
This supersolid makes light more controllable and stable, making it perfect for future optical technologies and quantum computing discoveries, and it also opens the door to the discovery of more matter.
Who knew that in 2025 we would be discovering new types of matter? It’s exciting to see the new frontiers of science that will be reached with this discovery.
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Daisy Edwards is a Content Writer at supercarblondie.com. Daisy has more than five years’ experience as a qualified journalist, having graduated with a degree from Goldsmiths, University of London and a dissertation in vintage electric vehicles. Daisy specializes in writing about cars, EVs, tech and luxury lifestyle.
