A team of scientists led by Haotian Wang, associate professor in chemical and biomolecular engineering at the George R. Brown ...

and then propagate those particles forward in time. The key problem with this approach is that a particle determined to be important may not fall in regions of importance when actually propagated ...

In simulating the trajectories of particles, we employ Heun's method for the convection process and calculate the expectation via the probability density function of neighbouring grid points during ...

The research team attributed this behavior to cosmic-ray showers, which are high-energy particles from space that enter the Earth's atmosphere. These cosmic rays produce secondary, high-energy ...

Thomas Lord Department of Mechanical Engineering and Materials Science, Duke University, Durham, North Carolina 27708, United States Department of Chemistry, Duke University, Durham, North Carolina ...

The development of large language models (LLMs) is entering a pivotal phase with the emergence of diffusion-based architectures. These models, spearheaded by Inception Labs through its new Mercury ...

Physicists provide a viable and testable explanation for how UHECRs are created. Ultrahigh Energy Cosmic Rays are the highest-energy particles in the universe, whose energies are more than a ...

On Thursday, Inception Labs released Mercury Coder, a new AI language model that uses diffusion techniques to generate text faster than conventional models. Unlike traditional models that create ...

Stable Diffusion is a text-to-image model which uses the power of generative AI to create realistic visuals from natural language prompts. Available through web apps, it’s an intuitive way to ...

Exposure to oxygen results in oxygen adsorption on the silver surface and dissolution of oxygen atoms in the bulk, likely also via diffusion and adsorption along the grain boundaries between the ...