A flower-shaped structure only a few micrometers in size made of a nickel-iron alloy can concentrate and locally enhance ...

Nearly two centuries after Faraday's failed attempts, scientists have demonstrated that Earth's continuous spin can directly ...

Highly charged heavy ions form a very suitable experimental field for investigating quantum electrodynamics (QED), the ...

Experiments suggest an unusual magnetic material could help harness energy from Earth’s rotation. But not everyone is ...

It’s part of an experiment called “AWESOME,” which seeks to observe how auroras affect Earth’s upper atmosphere.

In theory, as Earth spins through its magnetic field, any conductive material placed on its surface should experience a force ...

Physicists have discovered a new phase of matter while studying a model system of a magnetic material. The discovery of this ...

A trio of physicists from Princeton University, CIT's Jet Propulsion Laboratory and Spectral Sensor Solutions, all in the U.S ...

Try to fathom the power of 1 million nuclear power plants. Now, imagine there is a way to pack the equivalent of that into ...

In an ultra-cold, high-magnetic-field setting, ZrTe5 defies expectations by showing quantum heat oscillations. Researchers ...

The ability to conduct heat is one of the most fundamental properties of matter, crucial for engineering applications.

A flower-shaped structure only a few micrometres in size made of a nickel-iron alloy can concentrate and locally enhance magnetic fields. The size of the effect can be controlled by varying the ...