Laser-plasma accelerators can accelerate particles over distances that are up to 1,000 times shorter than those required by conventional accelerators. The technology promises compact systems that have ...

Laser beam incident on the structured droplet sets up plasma waves (blue pulses) that accelerates electrons (green solid spheres) to megaelectronvolt energies. In massive particle accelerators, ...

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 ...

Particle accelerators are usually huge structures—think of the 3.2-km-long SLAC National Accelerator Lab in Stanford, California. But scientists have been hard at work trying to shrink these ...

Laser plasma acceleration exploits the extreme electric fields generated in plasmas to produce high-energy electron beams over centimetre‐scale distances, in stark contrast to the kilometre‐scale ...

Revolutionary laser-driven technology unveiled by TAU Systems aims to place the capabilities of high-energy particle accelerators within reach of engineers and scientists the world over, with ...

If we achieve advanced nuclear, antimatter propulsion or other advance propulsion it would be possible to achieve near constant acceleration. This would enable travel times to Mars in the 3-8 day ...