Electromagnetic-thermal co-simulation methods integrate the numerical assessment of electromagnetic fields with thermal analysis to predict the coupled behaviour of systems in which heat generation ...

A new method developed at LMU overcomes fundamental resolution limits and may provide insights into high-temperature ...

The underlying mechanism is investigated using discrete element methods simulations.

Design engineering is running headfirst into a materials bottleneck. Industries such as automotive, aerospace, electronics, and semiconductors now depend on increasingly complex materials. Yet ...

Despite the huge technological interest in boron nitride (BN), understanding the relative stability of its different structural phases remains a challenge owing to conflicting results from experiments ...

Trends in RF technology are moving to much more complex, larger, denser, and dynamic structures than ever before. This is a natural evolution of RF technology as more techniques are developed to solve ...

The background: To understand how complex materials behave at the atomic level, physicists calculate what are known as ...

David J. Silvester, a mathematics professor at the University of Manchester, has developed a novel machine-learning method to detect sudden changes in fluid behavior, improving speed and the cost of ...

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SimScale, an AI-native cloud engineering simulation platform, has partnered with AI Engineering GmbH to integrate the Pamics solver into its ecosystem, delivering groundbreaking advancements in fluid ...

Physicists at Ludwig Maximilian University of Munich have developed a technique that overcomes the Nyquist-Shannon resolution limit in quantum simulations, enabling far more precise calculation of ...