Particles of light can spend "negative time" passing through a cloud of extremely cold atoms – without breaking the laws of ...

By influencing the nucleus of a titanium atom, they have created new opportunities for storing quantum information.

Researchers have been able to initiate a controlled movement in the very heart of an atom. They caused the atomic nucleus to interact with one of the electrons in the outermost shells of the atom.

Moore prints his watch-related artwork using a dye sublimation process onto aluminum sheets. In this process, the highlights ...

By using lasers to cool positronium atoms to nearly absolute zero, scientists have advanced our understanding of antimatter, ...

F or the first time since X-rays were discovered in 1895, researchers have successfully performed X-ray spectroscopy to ...

Such labels represent a direct smear on scientists' reputations—the coin of the realm in science; as a consequence of this censorship regime, many scientists opt to stay silent or watch from the ...

The company has also lined up a new partner in the form of Atom Computing, which uses neutral atoms to hold qubits and has already demonstrated hardware with over 1,000 hardware qubits.

Physicists have created the heaviest clumps of antimatter particles ever seen. Known as antihyperhydrogen-4, this strange stuff could help us solve some of the most puzzling physics mysteries ...

At first glance, the high-energy collisions inside particle accelerators may seem unrelated to everyday life, but the real-world applications of atom-smashing science extend far beyond the ...