Measuring conditions in volatile clouds of superheated gases known as plasmas is central to pursuing greater scientific understanding of how stars, nuclear detonations and fusion energy work. For ...

As the spallation neutron beam passes through the TRISO particle, some neutrons are absorbed by the uranium while most are scattered away. A neutron area detector collects the scattered neutrons, ...

The unique behavior of nanoparticles is driven by their size, surface structure, and interaction dynamics, all of which must be measured and characterized with high precision. Nanoparticles interact, ...

A project at the University of Tokyo has developed a bidirectional scattering microscopy technique for imaging complex cell structures. Discussed in Nature Communications, the platform is designed to ...

In this interview, Richard Chung, Product Manager at Wyatt Technology, discusses the development of the DynaPro Plate Reader 4, a next-generation system designed to bring powerful light scattering ...

A fundamental difficulty of working with nanoparticles is that your objects of study are too small for an optical microscope to resolve, and thus measuring their size can be quite a challenge. Of ...

Physicists have discovered that when beams of light interact at the quantum level, they can generate ghost-like particles that briefly emerge from nothing and affect real matter. This rare phenomenon, ...

Usually, light waves can pass through each other without any resistance. According to the laws of electrodynamics, two light beams can exist in the same place without influencing each other; they ...

Light scattering has long stood as a cornerstone technique in the characterization of particles across a wide range of scientific disciplines. From pharmaceuticals to food production, and from ...