Amid high expectations for quantum technology, a new paper in Science reports a proven quantum advantage. In an experiment, ...

Researchers at the University of Chicago have turned fluorescent proteins into biological qubits, enabling living cells to ...

For centuries, scientific progress has depended on more precise tools for measuring the world around us. Galileo’s telescope ...

The precise imaging of many-body systems, which are comprised of many interacting particles, can help to validate theoretical ...

This article explores how our understanding of the universe has evolved—from the scale of everyday experience down to the ...

Fluorescent proteins can be turned into qubits within cells and could give us a deeper understanding of biology at the nanoscale level.

By using something called a quantum grid, scientists have found a clever way to simultaneously measure momentum and position ...

For decades, quantum computing has felt like something out of science fiction — abstract, theoretical, and always “10 years ...

"This work is a step toward understanding how quantum mechanics and gravity work together, a major unsolved problem in physics." The first step toward quantum gravity, the "holy grail of physics," may ...

The Irish mathematician and physicist William Rowan Hamilton, who was born 220 years ago last month, is famous for carving some mathematical graffiti into Dublin's Broome Bridge in 1843.