Deep in the core of most galaxies, hidden by spinning clouds of gas and dust, black holes spin like cosmic engines. These ...

Astronomers studying the supermassive black hole M87*, a behemoth six and a half billion times the mass of the Sun, have ...

Geophysicists have modeled how Earth’s magnetic field could form even when its core was fully liquid. By removing the effects ...

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

A hundred years before the Event Horizon Telescope Collaboration released the first image of a black hole in 2019 – located ...

While traditional rockets have gotten us into space for decades, newer tech is on the horizon, like this plasma engine that ...

According to Alfred Nobel's will, the Nobel Prize in Physics was to go to "the person who shall have made the most important ...

Short pulses of light that impart rotation on a material's atoms can be used to switch a property called ferroaxiality, which ...

Magnetically guided microrobots coated with bacteriophages penetrate and dismantle bacterial biofilms, achieving targeted ...

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 ...

In this captivating experiment, explore the fascinating world of electric motors and their magnetic rotors in motion. Discover the principles that power these remarkable devices as we dive into the ...

Gravitational waves are energy-carrying waves produced by the acceleration or disturbance of massive objects. These waves, ...