中文摘要：

光子多普勒速度计可给出飞层表面某一速度带内颗粒群速度随时间演化的频谱数据,在冲击动力学实验尤其是微喷射及其混合研究中得到广泛应用.本文提出一种新的光子多普勒频谱数据分析方法,可推断出混合区厚度变化和前端等效颗粒尺度.利用该方法,对一些典型状态下喷射混合速度频谱开展分析,获得了不同冲击压力、气体条件下颗粒度数据,证实了气体环境下喷射颗粒的气动破碎现象,以及破碎后尺度与初始条件的依赖性,为喷射混合物理规律研究提供了重要依据.

英文摘要：

Ejecta mixing takes place at the interface between metal and gas under shock loading,i.e.,the transport process of ejecta from metal surface happens in gas.Ejecta production and transport processes in gas are the focuses and key problems of shock wave physics at present.So far,extensive investigations have been devoted mainly to the ejecta formation from metal surface under shock-loaded conditions,and many experimental measurement techniques have been developed,such as the Asay foil,high-speed camera and holography technique.As a newly developed instrument,photon Doppler velocitymetry（PDV）which allows the simultaneous detection of velocities of multiple particles has been widely used in the dynamic impact areas,especially in micro-jetting and ejecta mixing experiments.Although PDV spectrogram includes abundant information about ejecta particles,it seems to be too hard to obtain the particle velocity history,which embarrasses the analysis and application of PDV spectrogram.In this paper,the equation of particle motion including the effects of aerodynamic damping force,pressure gradient force,and additional mass force is established,and the analytical solutions of the particle position and velocity are derived in the conditions of planar constant flow,constant flow,and constant acceleration flow.According to the analytical solutions,the characteristics of particle movement are analyzed.A simplified formulation of the relaxation time of the particle velocity,which reflects the particle decelerated speed,is given.And it is found that the relaxation time is proportional to the four-thirds power of particle diameter.Based on the characteristics of particle motion in the planar constant flow,a new method is proposed to analyze the spectrogram of PDV.The fastest velocity of particle in the mixing zone is obtained by extracting the upper part of PDV spectrogram.By integrating the fastest velocity,the time evolution of the head of mixing zone is deduced approximately.The thickness of the mixing zone can be obtained by