Compton散射对激光等离子体中光场和电子密度分布的影响

The effects of Compton scattering on the light field and electron density profile in the laser plasma

应用电子和多光子集团非弹性碰撞模型和冷等离子体模型,研究了飞秒强激光与线性等离子体发生多光子非线性Compton散射时,散射激光与入射激光形成的飞秒耦合激光场对线性等离子体层中光场和电子密度分布的影响。研究发现,在耦合激光的有质动力作用下,电子密度分布和离子密度分布比Compton散射前的偏离更加严重,电子密度的变化比离子密度的变化更快,产生的静电场更强。即使耦合激光场非常弱,电子的运动仍表现出相对论效应,仍有静电场存在。

Under the action of the femto-second laser, when the multi-photon nonlinear Compton scattering takes place in the linear plasma, the effects of the femto-second coupling laser field formed by the scattering laser and incident laser on the light field and electron density profile in the linear plasma have been studied using the model of the inelastic collision between the electron and multi-photon group and the model of the cold plasma. The results show that under the action of the ponderomotive force of the coupling laser, there are a larger divergence of the density profile of the electron and ion in the laser-plasma than that without Compton scattering, the faster change of the electron density than the ion density, and the stronger electrostatic field than that without Compton scattering. Even if the coupling laser field is the very small and weak, there still are the relativistic effects of the electron motion and the electrostatic field.