Researchers from the University of Arizona, working with an international team, have captured and controlled quantum ...

In a first-of-its-kind experiment, researchers have captured quantum uncertainty in real time using ultrafast pulses of light ...

The subatomic particles called neutrinos are famously elusive. But an unconventional trick could make a laser beam of the aloof particles.

Optical lattice clocks are emerging timekeeping devices based on tens of thousands of ultracold atoms trapped in an optical ...

Researchers have found that under certain conditions, a laser beam can act like an opaque object and cast a shadow, opening new possibilities for technologies that could use a laser beam to control ...

A new optical technique lets scientists control topological solitons in ferroelectric materials, paving the way for ...

A new experiment has demonstrated something that sounds physically impossible – light itself casting a shadow. It turns out that if you manipulate a laser just right, then hit it side-on with another ...

A research team in Kiel has demonstrated a previously unknown effect in graphene—a single layer of carbon atoms whose ...

Lasers are known for the monochromatic nature of their light, so much so that you might never have thought there could be such a thing as a white laser. But in the weird world of physics, a lot of ...

Getting atoms to do what you want isn’t easy — but it’s at the heart of a lot of ground-breaking research in physics. Creating and controlling the behavior of new forms of matter is of particular ...

While the world continues to fixate on AI, there are still plenty of high performance computing workloads that need doing and a speedup to any one part can have a big impact, whether it be ...