Intense heavy ion beams as a pumping source for short wavelength lasers

Abstract: The high energy loss of heavy ions in matter as well as the small angular scattering makes heavy ion beams an excellent tool to produce almost cylindrical and homogeneously excited volumes in matter. This aspect can be used to pump short wavelength lasers. For the first time, a beam of heavy ions was used to pump a short wavelength gas laser in an experiment performed at the GSI ion accelerator facility in December 2005. In this experiment, the well-known KrF* excimer laser was pumped with an intense uranium b… Show more

“…This aspect is important for high energy density physics experiments. To demonstrate this effect, the intense beam from the heavy ion synchrotron at GSI was used to pump short wavelength lasers [19,20]. In this experiment, the well-known KrF * excimer laser was pumped with an intense uranium beam from the heavy ion synchrotron at GSI, where the beam pulses were compressed down to 110 ns (full width at half maximum) with initial particle energy of 250 MeV per nucleon.…”

High Energy Density Physics with Heavy Ion Beams and related Interaction Phenomena

“…This aspect is important for high energy density physics experiments. To demonstrate this effect, the intense beam from the heavy ion synchrotron at GSI was used to pump short wavelength lasers [19,20]. In this experiment, the well-known KrF * excimer laser was pumped with an intense uranium beam from the heavy ion synchrotron at GSI, where the beam pulses were compressed down to 110 ns (full width at half maximum) with initial particle energy of 250 MeV per nucleon.…”

High Energy Density Physics with Heavy Ion Beams and related Interaction Phenomena

“…Over the next couple of years this collaboration will build the experimental facilities for High Energy Density Physics Experiments at FAIR and will continue to explore the properties of heavy ion beams for inertial fusion. To this respect, a number of activities are going on and cover the range of target performance simulation (Tahir et al, 2004Temporal et al, 2005) to the development of advanced targets for experiments (Koresheva et al, 2009) and beam plasma interaction experiments with intense heavy ion beams (Adonin et al, 2009;Ni et al, 2008).…”

Dieter H.H. Hoffmann at 60 Years

Laser and Particle Beams in 2010