Laser diffraction is a formidable and widely embraced technology for particle size determination. However, regardless of the instrument employed, researchers will inevitably encounter data quality ...

A discovery could have a major impact on advancing smaller, cheaper, laser-driven particle accelerators -- and their potential applications. A discovery by University of Strathclyde researchers could ...

Scientists from the University of Rochester say deep learning can supercharge a technique that is already the gold standard for characterizing new materials. In an npj Computational Materials paper, ...

"Diffraction effects and polarization-related reflections make it difficult to control how energy is distributed during ablation," says Prof. Shaolin Xu, a laser manufacturing expert at SUSTech and ...

Those who have experienced method development for laser diffraction understand the scenario well: you are dealing with a new type of sample, uncertain about handling a particular detail, and the one ...

This article examines super-resolution laser machining, exploring optical techniques that enable sub-diffraction feature fabrication in precision manufacturing.

Sound system: photograph showing the array of loudspeakers on the far left. Also visible are the metamaterial lens of plastic spheres and the microphones used to acquire the images. (Courtesy: ...

A research team has found a way to manufacture single laser devices that are the size of a virus particle and that operate at room temperature. These plasmonic nanolasers could be readily integrated ...

A comparison has been made of sand, silt, and clay percentage of 118 samples from the Ayeyarwady continental shelf, northern Andaman Sea, measured by the sieve-laser diffraction technique and by ...