A ball tossed into the air follows a path that classical physics can track with confidence. Shrink that ball down to the size ...

Quantum computing is no longer science fiction confined to the lab. It is a new computing paradigm with the potential to solve problems beyond the reach of classical systems. From simulating complex ...

Jian Jiang's team at the Institute of Chemistry, Chinese Academy of Sciences, recently published an article that focuses on the core bottlenecks of ...

As the joke goes, CRQC has been 10 to 20 years away for the past three decades. While the recent research suggests that ...

Unpacking how recent progress in scaling active inference is already demonstrating real improvements for distributed control ...

Scientists have achieved a breakthrough by "distilling" light to eliminate the noise that prevents photonic quantum computers ...

Economist Scott Cunningham showed the Fed how AI agents can replicate studies for $11—and why the same tools could erode the ...

You rely on your thinking every day, but how reliable is it? This set of books looks at judgment, intelligence, and behaviour without simplifying them. It shows where reasoning breaks down, how bias ...

Interference helps keep quantum bits (qubits) stable by reducing outside disruptions. It speeds up calculations by letting ...

A dispute over how to divvy up the pot in an interrupted game of chance led early mathematicians to invent modern risk ...

When you throw a ball in the air, the equations of classical physics will tell you exactly what path the ball will take as it ...

In the last episode of my column in Notices of the American Mathematical Society, we looked at a particle moving in an attractive central force whose strength is proportional to the inverse cube of ...