Advanced numerical simulation tools such as QuantumATK, HFSS, and RaptorQu are transforming how research groups approach ...

A new quantum computing protocol may be able to augment a standard technique for understanding molecules in chemistry, ...

Quantum echoes” rippling through Google’s quantum computer chip Willow could lead to advances in molecular chemistry and the ...

The simulation of strongly interacting many-body systems is a key objective of quantum physics research, as it can help to ...

Scientists have created the first real-time 3D simulations of how lasers alter the quantum vacuum. Using cutting-edge computational modeling, scientists from the University of Oxford, in collaboration ...

The standard model of particle physics, which describes interactions between fundamental particles, is one of the greatest scientific accomplishments of the twentieth century. However, some aspects of ...

A team at the University at Buffalo has made it possible to simulate complex quantum systems without needing a supercomputer.

Chinese researchers used the Oceanlite supercomputer and a custom NNQS model to simulate molecular systems with 120 spin ...

Google’s Willow processor achieved a verified quantum speed-up, vastly outpacing classical supercomputers—and raising ...

The 2025 Nobel Prize in physics honors three quantum physicists—John Clarke, Michel H. Devoret and John M. Martinis—for their ...

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 ...

Rydberg atoms, characterised by their highly excited electronic states, have emerged as a pivotal resource in exploring quantum simulation. Their exaggerated electromagnetic properties enable strong, ...