The German research foundation DFG (Deutsche Forschungsgemeinschaft) has granted 750,000 euros for the research project "Creation of intense positron pulses on NEPOMUC" under its program "New ...

The ultra-high vacuum target chamber, where the intense positron pulse is implanted into the porous silica film. The magnet coils carry a current of 1000 amps for a few hundred milliseconds to ...

Working with lasers: The set-up used to create positron beams at the University of Michigan. Physicist Will Schumaker of the University of Michigan is in the background. (Courtesy: University of ...

The ultra-high vacuum target chamber, where the intense positron pulse is implanted into the porous silica film. The magnet coils carry a current of 1000 amps for a few hundred milliseconds to ...

Particle accelerators tend to be large and expensive. But an alternative technology, which could result in more compact, cheaper machines, is proving its viability for the acceleration of subatomic ...