The project aims for the next evolution of EUV lithography, centered around the lab-developed driver system named the Big ...

The development marks a major step forward in laser-plasma acceleration, a promising method for making compact, high-energy particle accelerators that could have applications in particle physics ...

Researchers from Lawrence Berkeley National Laboratory have accelerated electrons to high energies in less than a foot using ...

Using dual lasers and an advanced gas injection system, researchers at th Lab Laser Accelerator Center (BELLA) accelerated a high-quality electron beam to 10 billion electronvolts (10 GeV) over a ...

ELMIC aims to advance the basic science driving the integration of new materials and processes into future microelectronic ...

The 193nm Teledyne CETAC Analyte Excite Excimer Laser Ablation System is capable of introducing almost any type of solid sample into the iCAP™ TQ ICP-MS. It is especially applicable to in-situ ...

Research in plasma physics is extraordinarily broad, encompassing basic physics of plasmas, fusion sciences, space and astrophysics, beam and accelerator physics, laser-matter interactions, and ...

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.