Twisted materials—known as moiré structures—have revolutionized modern physics, emerging as today's "alchemy" by creating entirely new phases of matter through simple geometric manipulation. The term ...

Quantum computing has crossed a line that classical machines cannot easily follow, pushing simulations of matter and forces into regimes that even the largest supercomputers struggle to touch. Instead ...

Inside IBM’s Quantum Test Lab, the company is wagering that the next leap in artificial intelligence will not come from ever larger language models alone, but from machines that harness the quirks of ...

Quantum technology is accelerating out of the lab and into the real world, and a new article argues that the field now stands at a turning point—one that is similar to the early computing age that ...

After decades of looking, researchers have seen a string of atoms go through a 1D phase change so elusive that it could only happen inside a quantum simulator. “One motivation [for our experiment] is ...

Physicists have built a new type of digital-analogue quantum simulator in Google’s laboratory, which can be used to study physical processes with unprecedented precision and flexibility. Two ...

QSimulate team in blue shirts stand outside on green grass to pose for a photo. The QSimulate team (shown here) is making programs that model the quantum behavior of molecules. Credit: QSimulate ...

In some M-point moiré materials, electrons lock into crisscrossing patterns — a sign of one-dimensional behavior. In certain cases, they can also freeze into orthonormal valence bond dimers, revealing ...