Meshfree methods have emerged as a powerful alternative to traditional finite element approaches by eliminating the reliance on fixed meshes for domain discretisation. These techniques, which include ...

Computational physics jobs involve calculations and formulas. It combines physics, computer science and applied mathematics in order to provide scientific solutions to realistic and often complex ...

Numerical programming and computer simulations are ubiquitous through all subjects in physics. Thus, computational physics has grown to be an appealing field for those who wish to acquire advanced and ...

A breakthrough deterministic physics kernel delivers molecular, materials, and reaction screening across three ...

Deputy director of the School of Computing at the Australian National University, Amanda Barnard talks to Hamish Johnston about research at the interface of computational modelling, applied machine ...

Researchers present a comprehensive review of frontier AI applications in computational structural analysis from 2020 to 2025, focusing on graph neural networks (GNNs), sequence-to-sequence (Seq2Seq) ...

A computational method for finding transition states in chemical reactions, greatly reducing computational costs with high reliability, has been devised. Compared to the most widely used existing ...

In the early years of computational physics, starting during the Second World War, the discipline and its practitioners did not yet have a name. Iulia Georgescu tells the story of these forgotten ...

A new computational method can identify how cause-and-effect relationships ebb and flow over time in dynamic real-life systems such as the brain. The method was reported today in a Reviewed Preprint ...

Researchers have used an elegant method based on statistical mechanics -- called the vertex model -- to create more efficient algorithms to solve complex problems more quickly. The research could ...