Particle accelerators have many uses in fundamental and applied science, but conventional particle accelerators are huge. Plasma wakefield accelerators exploit plasma, a state of matter where electrons and ions are separated from each other, and can generate electric accelerating fields 1000 times stronger than in conventional accelerators. In turn, they can be used to shrink the size of particle accelerators by the same factor. However, the output beam quality from plasma accelerators is not better, and often worse than from conventional sources. The project addresses this crucial point and follows the approach of the plasma photocathode, that promises electron beams of much better quality than from conventional accelerators to be produced. In particular, the electron beams from plasma photocathodes may be up to 100,000 times brighter than state-of-the-art. Such Next Generation Plasma-based Electron Beam Sources (NeXource) would have large impact e.g. for intense photon sources such as X-ray free-electron-lasers. Such X-ray lasers are enormously important e.g. for material and biophysics, because they enable imaging of ultrafast atomic processes, e.g. the motion of electrons inside atoms and molecules.
The overarching objective of NeXource is to produce 1000x smaller and at the same time 100,000x brighter electron beams, thereby opening up completely new capabilities and at the same time democratizing particle accelerators by making them smaller, cheaper and simpler.