%0 Journal Article
%T Evolution of ionization front and its effects on laser pulse propagation in gaseous targets
激光脉冲在气体中产生的离化波前的演化及其对光脉冲传播的影响
%A Chen Min
%A Sheng Zheng-Ming
%A Zhang Jie
%A
陈民
%A 盛政明
%A 张杰
%J 物理学报
%D 2006
%I
%X When an intense laser pulse propagates in a gaseous target, an ionization front is produced at the leading edge of the laser pulse, which moves at the speed of light. By use of a one-dimensional particle-in-cell code with the field ionization included, we simulate the interaction between the laser pulse and its ionization front. It is found that, because of the discontinunities in atomic ionization potentials for different ionization orders, a flat-top region of the electron density appears inside the ionization front at the beginning. The ionization induces blue shif in the laser frequency, which modifies the laser pulse into a step-like profile. This new pulse profile in turn shortens the flat-top region in the ionization front. Generally the ionization front evolves into several parts, corresponding to different ionization orders, with different plasma density gradients. The effects of different gas elements and initial gas densities on the produced ionization fronts have been investigated. The conditions ith regard to the laser intensity and gas species to produce steep density gradients in ionization fronts have been studied for applications in frequency up-conversion by use of counter-propagating light pulses. Finally, the spectrum evolution of the ionizing pulse is investigated and the resulting fine spectrum structure located between the fundamental and the second harmonic is analyzed.
%K laser plasma
%K photon ionization
%K ionization fronts
%K frequency up-shift
激光等离子体
%K 光电离
%K 离化波前
%K 激光频率上转换
%U http://www.alljournals.cn/get_abstract_url.aspx?pcid=6E709DC38FA1D09A4B578DD0906875B5B44D4D294832BB8E&cid=47EA7CFDDEBB28E0&jid=29DF2CB55EF687E7EFA80DFD4B978260&aid=1CF428FF51B9D266&yid=37904DC365DD7266&vid=E514EE58E0E50ECF&iid=CA4FD0336C81A37A&sid=5FF9F4F7CB1800C7&eid=5957D6E0A50D26B5&journal_id=1000-3290&journal_name=物理学报&referenced_num=1&reference_num=26