Abstract

Laser ion acceleration provides for compact, high-intensity ion sources in the multi-MeV range. Using a pulsed high-field solenoid, for the first time high-intensity laser-accelerated proton bunches could be selected from the continuous exponential spectrum and delivered to large distances, containing more than ${10}^{9}$ particles in a narrow energy interval around a central energy of 9.4 MeV and showing $\ensuremath{\le}30\text{ }\text{ }\mathrm{mrad}$ envelope divergence. The bunches of only a few nanoseconds bunch duration were characterized 2.2 m behind the laser-plasma source with respect to arrival time, energy width, and intensity as well as spatial and temporal bunch profile.