Laser-assisted particle interactions and scattering represent a rapidly emerging field in high-energy and quantum physics, where the interplay between intense electromagnetic fields and particle ...

Burning hydrocarbon fuels produces nano-sized soot particles and Polycyclic Aromatic Hydrocarbons (PAH) - harmful emissions that impact our environment. The carbon-made particles make up 70% of our ...

In high-intensity laser–matter interactions, including laser-induced particle acceleration, physicists generally want to work with the highest possible focused laser peak power, which is the ratio of ...

Pulsed laser deposition (PLD) involves a laser ablation procedure, where a laser pulse interacts with a material surface to induce the formation of a plasma plume that expands away from the surface.

Researchers from Trinity College Dublin's School of Engineering have built a powerful new machine that lets us watch precisely what happens when tiny particles—far smaller than a grain of sand—hit a ...

Experts at the BELLA Center used dual laser beams focused onto a sheet of gas to reach a milestone energy in laser-driven electron acceleration. Four members of the larger team gathered with the ...

A new pocket-sized particle accelerator has proven capable of projecting ultra-short electron beams with laser light at more than 99.99% of the speed of light. Researchers, led by Lancaster and ...

Physicists are learning to carve laser beams into intricate shapes that can grab hold of electrons and push them with a precision that once sounded like science fiction. Instead of simply blasting ...

Laser-induced alignment boosts single-particle imaging by improving molecular orientation, enabling clearer 3D structure recovery of proteins and macromolecules. (Nanowerk News) Single-particle ...

Research was conducted to determine the optimum laser diffraction-based particle sizing dispersion method for Domperidone API. This study employed the Bettersizer 2600 - an automatic laser diffraction ...