Scientists at the University of California, Riverside are making breakthroughs in understanding how quantum wave functions ...

Quantum entanglement offers a unified ab initio framework for revealing chemical bonds, from Lewis structures to aromatic and ...

LMU physicists develop a new framework for understanding chemical bonding through quantum entanglement. Chemical bonding is one of the central organizing principles of the microscopic world. It ...

Quantum computers have the potential to transform science, accelerating breakthroughs in drug development, cosmology, ...

A team of physics educators is focusing on a new approach to teaching quantum physics in schools. Traditional classroom teaching has tended to focus on presenting the history of the origins of quantum ...

The idea that everything that exists can be built from the bottom up has long held sway among physicists. Now, a new kind of science is under construction that centres conscious experience – and might ...

The quantum tangent kernel method is a mathematical approach used to understand how fast and how well quantum neural networks can learn. A quantum neural network is a machine learning model that runs ...

Ultra-fast data transfer and superconductivity: Quantum materials offer significant technological prospects—if we can ...

The researchers, including physics education specialist Professor Philipp Bitzenbauer from Leipzig University, concentrate on what are known as qubits. These are two-state systems, the simplest and at ...

Technological devices are getting ever smaller, but as they approach the scale at which quantum physics matters, our understanding of how they interact with their environment evaporates. James Millen ...

Computers, the internet and digitization have been major driving forces of innovation over the last 50 years, but classical computing architecture has its limits. Quantum computing is emerging as a ...