By using ultrafast lasers, researchers have observed electrons moving in perfect sync inside particles smaller than a nanometer. This breakthrough unlocks new ways to manipulate light and electrons, ...

In a groundbreaking study, scientists developed new ways to control atom collisions using optical tweezers, offering insights ...

Quantum computers, which operate leveraging quantum mechanics phenomena, could eventually tackle some optimization and ...

Researchers at Microsoft have announced the creation of the first “topological qubits” in a device that stores information in ...

Electrons are incredibly fast. Because of their ultrafast motions, directly observing their behavior has been challenging. Now researchers have suggested a new method to make visualizing electron ...

Microsoft's Majorana 1 processor uses topological superconductivity to potentially scale quantum computing to 1 million ...

Electrons oscillate around the nucleus of an atom on extremely short timescales, typically completing a cycle in just a few ...

Electrons oscillate around the nucleus of an atom on extremely short timescales, typically completing a cycle in just a few hundred attoseconds (one ...

Neutrinos lie at the frontier of scientific unknowns about the universe. However, there’s a problem—neutrinos also like to ...

New atomic clocks are more accurate than those used to define the second, suggesting the definition might need to change ...

In a new study published in Physical Review Letters, JILA Fellow and University of Colorado Boulder physics professor Cindy ...

MIT physicist 'Riccardo Comin' successfully mapped an electron’s shape in motion, unlocking breakthroughs in quantum physics, ...