This study introduces a valuable spring-bead model for epithelial cell layers, designed to improve previous cell-resolved approaches and to understand the connection between the biophysics of ...

The deep ocean can often look like a real-life snow globe. As organic particles from plant and animal matter on the surface ...

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

Magnetic oil droplets with switchable rolling and swimming modes enable adaptive navigation, particle transport, and control ...

Did The universe really begin with a bang, a bounce? The theory that the universe is both possibly having endured a sudden ...

This is the code and all trained models used while writing my thesis. Modified-improved-diffusion-main is based on improved-diffusion-main by Alex Nichol et al. from OpenAI. Their code was rewritten ...

Researchers at the Georgia Institute of Technology and India's National Center for Biological Sciences have found that yeast clusters, when grown beyond a certain size, spontaneously generate fluid ...

The company has integrated the AI model into its internal discovery pipeline and aims to use it in collaborative drug ...

Aspects of the research and practice paradigm known as the diffusion of innovations are applicable to the complex context of health care, for both explanatory and interventionist purposes. This art ...

This diffusion‑limited regime likely dominates for fluffier aggregates made of phytoplankton remains, fecal pellets, or ...

In a twist on conventional wisdom, researchers have discovered that in ocean-like fluids with changing density, tiny porous particles can sink faster than larger ones, thanks to how they absorb salt.