Researchers from Tel Aviv University have developed a new method for simulating complex quantum systems that can be combined with cutting edge AI techniques The density of 6 fermions in a 2D harmonic ...

A new quantum-inspired algorithm is reshaping how scientists approach some of the most complex materials known, enabling ...

Researchers from Cleveland Clinic, RIKEN, and IBM have carried out the largest quantum-classical chemistry ...

The Project Demonstrated a 100 Performance Improvement Compared to Existing Quantum Approaches, While Simulating Vast Areas ...

Researchers at the University of Oxford have achieved a breakthrough in quantum physics, demonstrating a new type of ...

Scientists have found a way to make AI much better at predicting complex, chaotic systems by tapping into the unique power of ...

Scientists have created a powerful new way to control quantum systems, achieving the first-ever demonstration of ...

Quantum technology has promising potential to revolutionize how large and complex amounts of information are processed. While ...

A research team has recently developed a novel algorithm in quantum physics known as 'entanglement microscopy' that enables visualization and mapping of this extraordinary phenomenon at a microscopic ...

The background: To understand how complex materials behave at the atomic level, physicists calculate what are known as ...

The original version of this story appeared in Quanta Magazine. It’s not easy to study quantum systems—collections of particles that follow the counterintuitive rules of quantum mechanics.

University of Oxford researchers have experimentally demonstrated 'quadsqueezing,' a fourth-order quantum interaction previously only theorized. Using two non-commuting forces on a single trapped ion, ...