They combined optical tweezers with metasurfaces to trap more than 1,000 atoms, with the potential to capture hundreds of ...

A new light-based breakthrough could help quantum computers finally scale up. Stanford researchers created miniature optical cavities that efficiently collect light from individual atoms, allowing ...

Imagine traveling through a city where the streets themselves change shape depending on how fast you drive down them. For ...

A light has emerged at the end of the tunnel in the long pursuit of developing quantum computers, which are expected to ...

For over a century, light has both helped and limited our view of the ...

Light and matter can remain at separate temperatures even while interacting with each other for long periods, according to ...

Experiments reveal that metallic nanoparticles thousands of atoms wide can exist in quantum superposition, providing a ...

Metal clusters made of thousands of atoms showed quantum interference, offering new insight into how large objects follow quantum rules.

To reach this conclusion, the researchers examined the most basic form of entanglement between identical particles using the concept of nonlocality introduced by physicist John Bell. While ...

Highly anticipated: Scientists at the University of Arizona have demonstrated a method to capture and manipulate quantum uncertainty in real time using rapid pulses of light, marking what they ...

Cosmology and quantum physics both offer tantalizing possibilities that we inhabit just one reality among many. But testing ...