物理学报2018,Vol.67Issue(2):172-180,9.DOI:10.7498/aps.67.20170521
神光Ⅲ主机上球腔辐射场实验的三维数值模拟与分析
Three-dimensional simulations and analyses of spherical hohlraum experiments on SGⅢ laser facility
摘要
Abstract
A new type of laser fusion indirect drive octahedral spherical hohlraum has been built up by Chinese researchers in recent years. The hohlraum with 6 laser entrance holes(LEHs)has superiority over other hohlraum configurations in both robust inherent high symmetry and high coupling energy efficiency from laser to hotspot for inertial confinement fusion study. Recently,an experimental investigation on radiation emission from the spherical hohlraum with two LEHs has been performed on the SGIII laser facility. In this experiment,32 laser beams(24 beams from the top,8 beams from the bottom) are injected into the hohlraum within 3 ns, and the total laser energy is 86.4 kJ. The hohlraum radius is 1.8 mm,and the radius of laser entrance hole is 0.6 mm. The experiments are conducted under two conditions: one is that a 0.48-radius capsule is located at the center of the hohlraum,and the other is that nothing is located in the hohlraum. Some flat response X-ray detectors (FXRDs) are installed at different angles on the target wall to collect the radiation energy. We carry out three-dimensional (3D) simulations of the experiment by using our 3D radiation implicit Monte Carlo code IMC3D. This code was developed in recent years based on fleck and Cumming's ideas. The hydrodynamics is not taken into consideration in the simulations, so we deduct 30% laser energy lost to hohlraum wall movements and back scattered by laser plasma instabilities. Based on the approximation, the simulation results are reasonable in principle. As a result,the radiation temperature of the hohlraum with capsule is 230 eV,and the radiation temperature of the hohlraum without capsule is 238 eV. At the end of laser injection, the capsule reflection ratio is 0.83. Compared with the experimental data, most of the simulation data agree well with the detector observations, except the data at 0?angle. The possible reasons for the difference are analyzed. The flux at 0?angle is more sensitive to the wall plasma movements than at the other angles. So if we ignore this phenomenon, then the witch will occur both in experiment and in simulation, yielding obvious differences for those quantities which strongly relate to the hydrodynamics of wall plasma. Finally,the methods of eliminating the difference are proposed and the prospect of IMC3D is presented.关键词
球型黑腔/激光聚变/间接驱动/隐式蒙特卡罗Key words
spherical hohlraum/laser fusion/indirect driving/implicit Monte Carlo引用本文复制引用
李树,刘杰,蓝可,陈耀桦,姬志成,章明宇,任国利,霍文义,闫威华,韩小英,李志超..神光Ⅲ主机上球腔辐射场实验的三维数值模拟与分析[J].物理学报,2018,67(2):172-180,9.基金项目
中国工程物理研究院科学技术发展重点基金(批准号:2013A0102002, 2012A0102005)和国家自然科学基金(批准号:11475033)资助的课题. Project supported by the Technology Development Key Foundation of China Academy of Engineering Physics(Grant Nos. 2013A0102002, 2012A0102005) and the National Natural Science Foundation of China (Grant No. 11475033). (批准号:2013A0102002, 2012A0102005)
