成功研制了高能炸药抽运光解碘激光器系统,实现了爆炸激光器装置的稳定激光输出,并获得了近百焦耳的激光输出能量.实验中分别测量了101.325 kPa下氩气中冲击波阵面的辐射光谱及冲击波阵面传播速度.该爆炸激光器系统利用七氟碘丙烷C3F7I作为激光工作物质,高能炸药作为抽运能源,实验中获得了较好的爆炸激光波形,激光脉宽(半峰全宽(FWHM))约34μs,最小光束发散角小于20 mrad.详细介绍了爆炸激光器的工作原理,针对具体的实验装置及实验技术路线进行了分析和描述.分别在不同实验条件下开展了相关爆炸激光实验,对实验结果进行了分析,并对影响爆炸激光输出的因素进行了分析和讨论,为进一步研制更大能量的爆炸激光装置打下了基础. Successfully developed a high-energy explosives pumping photolysis iodine laser system to achieve a stable laser output of the explosion laser device and obtain nearly one hundred joules of the laser output energy were measured in the experiment 101.325 kPa argon under the impact of the shock wave front radiation Spectrum and the propagation velocity of the shock wave front.The explosion laser system uses the heptafluoropropane propane C3F7I as the laser working substance and the high energy explosive as the pumping energy, and obtains the better explosion laser waveform in the experiment. The laser pulse width (full width at half maximum FWHM) is about 34μs, the minimum beam divergence angle is less than 20 mrad.The working principle of the explosion laser is introduced in detail, and the specific experimental device and experimental technology are analyzed and described.Explosive laser experiments are carried out under different experimental conditions The experimental results were analyzed and the factors affecting the laser output were analyzed and discussed, which laid the foundation for the further development of the explosive laser device with larger energy.