MIT physicists have taken the first-ever direct images of individual atoms interacting freely in space. Their findings, ...

Repulsive gravity at the quantum scale would have flattened out inhomogeneities in the early universe First light: The cosmic microwave background, as imaged by the European Space Agency’s Planck ...

Until now, atoms have never been imaged interacting freely in space, but a new technique known as non-resolved microscopy has ...

The Ray Dolby Centre, the state-of-the-art new home of Cambridge’s Cavendish Laboratory and a major asset for the University, ...

He and his colleagues took a very different approach in order to directly image atoms interacting in free space. Their technique, called "atom-resolved microscopy," involves first corralling a cloud ...

A video recently caught netizens' attention and took their breath away. It showed an enormous anaconda moving slowly through a forest stream.

Two months after Jainendra K. Jain, Evan Pugh University Professor and Erwin W. Müller Professor of Physics and holder of the Eberly Family Chair in the Penn State Eberly College of Science, received ...

It's a real geometric concept describing space that occupies more than three dimensions ... Based on a fundamental theorem of ...

When an ordinary beam of neutrons strikes the team’s silicon grating, the millions of scored lines on the grating convert the ...

The extraordinary potential of quantum computers also threatens the security systems that keep our digital world safe.

The extraordinary potential of quantum computers also threatens the security systems that keep our digital world safe.

The team behind the new study has been working with a material made of potassium, vanadium, and antimony (KV₃Sb₅), which is ...