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

For almost a century, Heisenberg's uncertainty principle has stood as one of the defining ideas of quantum physics: a ...

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

The algorithm is grounded in math and physics and allows a nuclear microreactor to automatically control its thermal power.

The measurement problem in quantum mechanics looks at how an experimental outcome changes, simply by observing it.

Researchers have reimagined Heisenberg’s uncertainty principle, engineering a trade-off that allows precise measurement of ...

Long-term weather forecasting is a difficult task, partly because weather systems are inherently chaotic. Though mathematical ...

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

Stefan Hutzler and Louise Bradley explain how they turned the famous pitch-drop experiment into an outreach activity ...

Cold atom experiments are among the most powerful and precise ways of investigating and measuring the universe and exploring ...

Physicists are eyeing charged gravitinos—ultra-heavy, stable particles from supergravity theory—as possible Dark Matter ...

A simple yet intuitive approach to tracking tiny, quantum mechanical particles could inform the next breakthrough in quantum technology.