Scientists have found an elusive third form of magnetism that could help solve a longstanding puzzle about superconductors.

Scientists discover low-mass microquasars can accelerate cosmic rays, reshaping theories on high-energy particle origins.

Earth’s magnetic field, generated by movements within its molten iron core, serves as a protective shield against solar winds ...

Understanding chorus waves is vital, as they create fast-moving, highly energetic electrons (known as killer electrons) that ...

For the first time ever, scientists have managed to snap a picture of an electron’s shape while it moves through a solid.

Supercomputer simulations advance electric propulsion by tackling ion plume challenges for safer space missions.

A team of scientists including the University of Toronto's Bart Ripperda and Braden Gail - assistant professor and graduate student, respectively, at ...

Once a year, the Large Hadron Collider smashes lead ions. But how do scientists get a heavy metal into a particle accelerator?

From steam's legacy to electrifying speed, explore Pritesh Ruthun's four contenders that promise to set your pulse racing ...

Achieving practical interstellar travel requires overcoming the immense challenge of reaching extraordinary velocities. To ...

You may not know it, but right now there's a huge cosmic rave party happening far, far above our heads. The chief party goers are known as supermassive black holes. These mysterious objects can have ...

The plasma jets of this cosmic giant span 3.3 million light-years from end to end - over 32 times the size of the Milky Way ...