High-order harmonic generation (HOHG) from the inter- actions of relativistically intense laser pulses with solid-density plasma surfaces has been demonstrated as a promising bright coherent x-ray source in the last de- cade. In contrast with the harmonic generation from la- ser-gas interactions,
The temporal profiles of high-power short-pulse lasers reflected from self-induced plasma mirrors(PMs)were measured with high temporal resolution in the sub-picosecond window.The leading front shape of the laser pulse is found to depend sensitively on the laser fluence on the PM surface.Spectral modulation plays a key role in pulse profile shaping.Our findings will extend our knowledge on properly using PMs.
The radiation reaction effects on electron dynamics in counter-propagating circularly polarized laser beams are investigated through the linearization theorem and the results are in great agreement with numeric solutions.For the first time,the properties of fixed points in electron phase-space were analyzed with linear stability theory,showing that center nodes will become attractors if the classical radiation reaction is considered.Electron dynamics are significantly affected by the properties of the fixed points and the electron phase-space densities are found to be increasing exponentially near the attractors.The density growth rates are derived theoretically and further verified by particle-in-cell sim-ulations,which can be detected in experiments to explore the effects of radiation reaction qualitatively.The attractor can also facilitate realizing a series of nanometer-scaled flying electron slices via adjusting the colliding laser frequencies.
Zheng GongRonghao HuYinren ShouBin QiaoChiaer ChenFurong XuXiantu HeXueqing Yan
The femtosecond laser pulses reflected from the self-induced plasma mirror(PM) surface are characterized. More than two orders of magnitude improvement on intensity contrast both in nanosecond and picosecond temporal scales are measured. The far-field distribution, i.e., focusability, is measured to degrade in comparison with that without using a PM. Experiments on proton accelerations are performed to test the effect of the balance between degraded focusability and increased reflectivity. Our results show that PM is an effective and robust device to improve laser contrast for applications.
