Combining microscopy, scanning, and deep learning enables more precise imaging of functional dynamics in neural networks of human cortical organoids.

Microplastics have been mapped deep within the tissue of living organisms in fine detail in a new study involving Kingston ...

A new microscope method reveals details that were difficult to see before, helping researchers study proteins, cells, and ...

Berkeley Lab and UC Berkeley physicists' new technique offers detailed images of the small molecules and cell structures that ...

Biohub and UC Berkeley show that the laser phase plate, a revolutionary device with a laser 100 million times brighter than ...

Researchers argue that Digital Rock Physics could help the UK and Europe move from critical minerals targets to practical ...

An international team led by the Max Born Institute has developed a new type of momentum microscopy to image magnons—the ...

The rapid advancement and diffusion of artificial intelligence (AI) systems, such as the machine learning models underpinning ...

Flourish plans to carry out a broad range of experiments to identify a path toward more energy-efficient AI. The company is ...

In practical testing involving the microstructural analysis of molecular sieves — porous crystalline materials widely used as ...

Stanford researchers have developed a microscope that can show how nanostructures interact inside living cells at the highest ...