Generation of stable, low-divergence electron beams by laser-wakefield acceleration in a steady-state-flow gas cell
Physical Review Letters 101:8 (2008)
Abstract:
Laser-driven, quasimonoenergetic electron beams of up to ∼200MeV in energy have been observed from steady-state-flow gas cells. These beams emitted within a low-divergence cone of 2.1±0.5mrad FWHM display unprecedented shot-to-shot stability in energy (2.5% rms), pointing (1.4 mrad rms), and charge (16% rms) owing to a highly reproducible gas-density profile within the interaction volume. Laser-wakefield acceleration in gas cells of this type provides a simple and reliable source of relativistic electrons suitable for applications such as the production of extreme-ultraviolet undulator radiation. © 2008 The American Physical Society.Plasmon resonance in warm dense matter
Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 78:2 (2008)
Abstract:
Collective Thomson scattering with extreme ultraviolet light or x rays is shown to allow for a robust measurement of the free electron density in dense plasmas. Collective excitations like plasmons appear as maxima in the scattering signal. Their frequency position can directly be related to the free electron density. The range of applicability of the standard Gross-Bohm dispersion relation and of an improved dispersion relation in comparison to calculations based on the dielectric function in random phase approximation is investigated. More important, this well-established treatment of Thomson scattering on free electrons is generalized in the Born-Mermin approximation by including collisions. We show that, in the transition region from collective to noncollective scattering, the consideration of collisions is important. © 2008 The American Physical Society.Laser driven MeV proton beam focussing by auto-charged electrostatic lens configuration
AIP Conference Proceedings 1024 (2008) 173-182
Abstract:
Significant reduction of inherent large divergence of the laser driven MeV proton beams is achieved by strong (of the order of 109V/m) electrostatic focussing field generated in the confined region of a suitably shaped structure attached to the proton generating foil. The scheme exploits the positively charging of the target following an intense laser interaction. Reduction in the proton beam divergence, and commensurate increase in proton flux is observed while preserving the beam laminarity. The underlying mechanism has been established by the help of particle tracing simulations. Dynamic focussing power of the lens, mainly due to the target discharging, can also be exploited in order to bring up the desired chromaticity of the lens for the proton beams of broad energy range. © 2008 American Institute of Physics.Evidence of short-range screening in shock-compressed aluminum plasma
Physical Review Letters 101:7 (2008)
Abstract:
We have investigated the angular variation in elastic x-ray scattering from a dense, laser-shock-compressed aluminum foil. A comparison of the experiment with simulations using an embedded atom potential in a molecular dynamics simulation shows a significantly better agreement than simulations based on an unscreened one-component plasma model. These data illustrate, experimentally, the importance of screening for the dense plasma static structure factor. © 2008 The American Physical Society.X-ray scattering measurements of radiative heating and cooling dynamics.
Phys Rev Lett 101:4 (2008) 045003