Nuclear fusion promises a green and infinitely renewable supply of energy—if we can harness it. Fusion happens all the time ...

Making a black hole is easy. Just squeeze a bunch of stuff into a small enough volume. It doesn’t even matter what you use. You can collapse stars, planets, old car tires, Labubus, or missing left ...

A daring bid to bottle starlight is moving from blueprints to reality, as a vast global team begins the painstaking task of ...

In recent years, NASA's Parker Solar Probe has given us a close-up look at the sun. Among the probe's revelations was the ...

As per the clip, the magnetic tune is otherworldly and creepy, like the title soundtrack to a deep space horror thriller or ...

The Earth’s magnetic field has flipped 183 times over 83 million years, and a weakening field raises the risk of solar ...

As the iron and nickel inside our planet shift, so does Earth's magnetic field, meaning the North (and South) Poles are also ...

Astronomers have captured the clearest picture yet of how massive stars are born, revealing a dramatic interplay between ...

The magnetized rocks of Earth's crust and mantle, also known as the upper lithosphere, accounts for generating 6 percent of the planets magnetic field. Data from the European Space Agency's Swarm ...

A new model uncovers how Earth’s liquid core has sustained its magnetic field since the planet’s beginnings, offering new insights into its future. Earth benefits from the presence of a magnetic field ...

The strongest magnetic fields on Earth that we can currently produce are courtesy of MagLab in Tallahassee, Florida, at their pulsed field facility.

Researchers built a fingernail-sized magnetometer using metasurfaces that measures fields billions of times weaker than Earth's, opening new paths for quantum sensing. At the heart of the sensor is an ...