Low-temperature plasma, a rapidly expanding source of innovation in fields ranging from electronics to health care to space exploration, is a highly complex state of matter. So complex that the ...

Carbon and oxygen have a high absorption contrast. This is used to study biological and mineral samples via the “water window“, which has a spectral range between λ = 2.3 – 4.4 nm. Transmission X-ray ...

The electronics industry is the modern ''toolmaker'' for the world economy and as such helps to generate jobs and improve productivity in most other industries. Automobiles, airplanes, telephones, ...

Plasma science and technology are undergoing a period of significant growth, supported by advances in plasma sources, high-precision diagnostics, modelling capabilities, and computational tools.

Engineers are scrutinizing every stage of the manufacturing process, from design to final product, in search of innovative solutions to meet demanding consumer expectations. Plasma technology has ...

The plasma and beams group conducts research at the crossroads of plasma physics, particle beam physics, and laser physics. Our goal is to study particle beam acceleration in strong plasma waves that ...

Particle accelerators, like the Large Hadron Collider near Geneva, Switzerland, allow scientists to study the most fundamental particles, but they operate on a massive scale. The tunnel that houses ...