Studying and designing novel materials is a central application of quantum mechanics. Chemists, materials scientists, and ...

IBM (IBM) stock edges higher as quantum computer successfully simulates real magnetic materials, achieving milestone years ...

Quantum computers are gaining a reputation among chemists and material scientists as promising tools that can tackle problems ...

When a molecule absorbs light, it undergoes a whirlwind of quantum-mechanical transformations. Electrons jump between energy levels, atoms vibrate, and chemical bonds shift—all within millionths of a ...

Faithful simulations of the world are impossible to create using ordinary computers. Simulating physical reality is, however, the original, express purpose of quantum computers. In 1981, long before ...

Innovative network-based quantum compiler leverages NVIDIA CUDA-Q to enable greater scalability, on-demand modularity, and repeatable deployment of quantum workloads ...

Quantum computer research is advancing at a rapid pace. Today's devices, however, still have significant limitations: For example, the length of a quantum computation is severely limited—that is, the ...

Researchers at the quantum computing firm Quantinuum used a new Helios-1 quantum computer to simulate a mathematical model that has long been used to study superconductivity. These simulations are not ...

Richard Feynman, the iconic physicist and one of the progenitors of quantum computing, famously said in 1981: “Nature isn’t classical, dammit, and if you want to make a simulation of nature, you’d ...