Abstract
In order to develop a laser-driven spin-polarized 3He-ion beam source available for nuclear-physics experiments as well as for the investigation of polarized nuclear fusion, several challenges have to be overcome. Apart from the provision of a properly polarized 3He gas-jet target, one of the biggest milestones is the demonstration of the general feasibility of laser-induced ion acceleration out of gas-jet targets. Of particular importance is the knowledge about the main ion-emission angles as well as the achievable ion-energy spectra (dependent on the optimal set of laser and target parameters). We report on the results of such a feasibility study performed at PHELIX, GSI Darmstadt. Both 3He- and 4He-gas jets (ngas ∼ 1019 cm−3) were illuminated with high-intensity laser pulses, . The main ion-emission angles could be identified (±90° with respect to the laser-propagation direction) and the ion-energy spectra for all ion species could be extracted: for the optimal laser and target parameters, the high-energy cut-offs for He ions were 4.65 MeV (with a normalized energy uncertainty of ) and 3.27 MeV (), respectively.
Highlights
Helium-3, especially in a nuclear-polarized state, is of particular importance for fundamental research
The sine qua non of a polarization measurement of laser-accelerated 3He2+ ions at PHELIX is a successfully demonstrated laser-driven ion acceleration out of a helium gas-jet target: experimentally and computationally obtained data on helium-ion energies and the main ion-emission angles is needed for the optimization of the 3He polarimetry
The highest signals regarding signal intensity and ion energy were recorded in Thomson Parabola Spectrometers (TPS)-90 which is in good agreement with the RCF measurements for the angular ion distribution
Summary
Sicherheit und Strahlenschutz, Arbeitssicherheit, FZJ, D-52425, Jülich, Germany. 13 Author to whom any correspondence should be addressed. Sicherheit und Strahlenschutz, Arbeitssicherheit, FZJ, D-52425, Jülich, Germany. 13 Author to whom any correspondence should be addressed.
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