A research team led by TU Darmstadt has transformed a difficult problem in quantum physics into a much simpler version through innovative reformulation—without losing any important information. The ...

Scientists in Japan have developed a new way to instantly detect elusive quantum “W states,” a major milestone for quantum technology. The breakthrough could help unlock faster quantum communication, ...

Quantum computing promises to reshape energy by enabling advanced simulations and accelerating materials discovery for carbon ...

The company creates tools that allow conventional software developers to code for quantum systems Read more at The Business ...

A new quantum-inspired algorithm has cracked a problem so massive that conventional supercomputers struggle to even approach it. Researchers used the method to simulate extraordinarily complex quantum ...

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 ...

The background: To understand how complex materials behave at the atomic level, physicists calculate what are known as spectral functions. They show which energy states a system can assume and how ...

Current global MLFFs only scale to system sizes of a few dozen atoms, restricted by the computational challenge of having to couple a quadratic amount of atom-atom interactions. However, accurate ab ...

It's not easy to make sense of quantum-scale motion, but a new mathematical theory developed by scientists at Rice University and Oxford University could help—and may provide insight into improving a ...

A new method developed at LMU overcomes fundamental resolution limits and may provide insights into high-temperature superconductivity. The physicist Dr. Sebastian Paeckel has developed a method that ...