This limitation makes it impossible to simulate the dynamical deformation of materials on long time scales encountered in experiments, i.e., for deformation rates lower than ~10 to 100 gigahertz.

Twisted materials—known as moiré structures—have revolutionized modern physics, emerging as today's "alchemy" by creating ...

New research led by the University of Liverpool in collaboration with the University of New South Wales (Sydney, Australia) ...

In computational chemistry, these scientists use computer simulations and modeling techniques to predict chemical behaviors and design new materials. Chemists and materials scientists are most ...

Lawrence Livermore National Laboratory (LLNL) is expanding its deployment of Anthropic's Claude for Enterprise to its entire ...

Advanced Computational Materials Science ~Innovation of Materials Development by Digital Twin~／CRDS-FY2023-SP-02. Executive Summary. In this proposal, we show that the construction and utilization of ...

The number of scientific papers that rely on AI has quadrupled, and the scope of problems AI can tackle is expanding by the ...

In aerospace applications, high-temperature shape memory alloys (HTSMAs)—materials capable of remembering and returning to ...

M recently completed an in-depth study to understand what technologies will most influence the future of how we live, work, ...

With a catalog of over 12 million commercially available starting materials and building blocks, SYNTHIA™ allows scientists to quickly discover novel pathways for new and published target molecules.