Researchers at Paul Scherrer Institute PSI have demonstrated an innovative method to control magnetism in materials using an ...

Researchers at the National Graphene Institute have made a groundbreaking discovery that could revolutionise energy harnessing and information computing. Their study, published in Nature, reveals how ...

The discovery of electric-field-induced magnetization reversal perpendicular to the electric field in multiferroic materials could revolutionize memory design, enabling more space- and energy ...

Conventional accelerators use oscillating electric fields to drive charged particles to relativistic speeds. The Large Hadron ...

The onboard instruments measured changes in electric potential from the altitude where the field should begin – 250 km (150 miles) – up to the maximum height it reached, 768 km (477 miles).

The team first worked with these materials in 2009, but it took them 15 years to build the first devices with them. Even at this point, the device is not close to being deployed in the field.

Harnessing electric fields could make this mining more sustainable Smartphones, electric vehicles and wind turbines rely on environmentally destructive rare earth mining operations.

Now, more than half a century later, NASA has finally recorded this theoretical field and measured a change in electric potential of only 0.55 volts, the correct amount needed to send ions at ...

Lift off The Endurance rocket ship launches from Ny-Ålesund, Svalbard. (Courtesy: Andøya Space/Leif Jonny Eilertsen) A drop in electric potential of just 0.55 V measured at altitudes of between ...

Endurance measured a change in electric potential of 0.55 volts between the altitudes of 248 kilometers and 768 kilometers — exactly enough to explain the polar wind on its own, without any ...