Researchers at the University of Osaka have hit a vital milestone toward creating tabletop X-ray lasers, with the goal of building ultracompact high-energy electron accelerators. Using high-intensity lasers, researchers have taken an important step towards miniaturisation of particle accelerators by demonstrating free-electron laser amplification at extreme ultraviolet wavelengths. By generating high-quality, monoenergetic electron beams (i.e., beams in which all electrons have nearly the same energy), they have achieved a key milestone toward compact accelerator technologies. “Our work has made several substantial improvements over previous techniques, allowing us to achieve free-electron laser amplification at extreme ultraviolet wavelengths,” said lead author Zhan Jin. Using wakefield acceleration to generate stronger waves The research team, led by the University of Osaka’s Institute of Scientific and Industrial Research (SANKEN), used a technique called laser wakefield acceleration to create plasma waves that generate extremely strong accelerating electric fields, thanks to waves within the plasma that travel at almost the speed of light. These electric fields are more than 1000 times as strong as those in conventional particle accelerators. Jin explained: “We …