University of Southampton researchers have confirmed the Zel'dovich effect, where twisted waves are amplified by a rotating ...

The results show that X-rays could play an even bigger role than the initial shock wave itself, though more data needs to be ...

Electromagnetic vortex pulses could be employed for information encoding, high-capacity communication and more ...

A recent breakthrough led by Igor Pikovski, a physics professor at Stevens Institute of ... "But in our case, we’re working ...

Nonetheless, any alien wishing to shout at us in quantum would surely have the technology to see our planet in enough detail ...

For nearly 30 years, scientists have theorized that such a vortex should be possible within the realm of electromagnetism. In ...

In a study published in Nature Communications, physicists at the University of Southampton tested and proved a 50-year-old ...

WVU researchers are making their mark in a growing field of research focused on studying a phenomenon known as gravitational ...

Black holes are mysterious objects. One longstanding question has been whether rotating black holes, which are so powerful ...

Researchers have created a technology that enables sound waves to propagate only forward, eliminating backward transmission ...

The team added new limits to how dark matter could interact with the LIGO detector, boosting hopes for future runs.

The physicist Roger Penrose suggested that, if an object fell into a rotating black hole in such a way that it split – with ...