Quantum dynamics and semiclassical approaches constitute a vital area of contemporary research in molecular science, offering powerful tools to decipher the complex interplay between quantum effects ...

In a breakthrough, researchers at the University of Sydney have, for the first time, used a quantum computer to simulate the real-time chemical dynamics of actual molecules. This milestone marks a ...

For almost as long as Lawrence Livermore has existed, scientists have been experimenting with materials to learn what happens to them under high pressure. In the brief instant of a high-explosive ...

Researchers have made a meaningful advance in the simulation of molecular electron transfer -- a fundamental process underpinning countless physical, chemical and biological processes. The study ...

The 2024 Gordon Bell Prize goes to researchers led by the University of Melbourne for using the Frontier supercomputer to conduct a quantum molecular dynamics simulation 1,000 times greater in size ...

Quantum systems can simulate molecular interactions at a level of fidelity that classical computers cannot achieve. They can ...

Scientists at the University of Chicago and partner institutions have demonstrated a new type of molecular qubit that operates at standard telecommunications wavelengths. The breakthrough could enable ...

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 ...

During chemical reactions, atoms in the reacting substances break their bonds and re-arrange, forming different chemical ...

Universal Quantum has staked its reputation on the trapped-ion approach, allowing it to scale in the quickest and most ...

Electron transfer, critical to processes such as cellular respiration and energy harvesting in plants, has long posed challenges to scientists due to the complex quantum interactions involved. Current ...