Evolution of low-mode asymmetries introduced by x-ray P2 drive asymmetry during double shell implosions on the SG facility

IF 3.5 1区 物理与天体物理 Q1 PHYSICS, FLUIDS & PLASMAS Nuclear Fusion Pub Date : 2024-09-18 DOI:10.1088/1741-4326/ad7967
Guanqiong Wang, Hang Li, Xin Li, Chenguang Li, Xindong Li, Ruihua Xu, Ruidong Zhu, Lulu Li, Huasen Zhang, Yingkui Zhao, Min Wang, Liang Guo, Jinhua Zheng, Longfei Jing, Wei Jiang, Bo Deng, Keli Deng, Yunsong Dong, Dong Yang, Jiamin Yang and Zongqing Zhao
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Abstract

Double shell capsule can provide a potential low-convergence to fusion ignition at relatively low temperature (∼3 keV). One of the main sources of degrading double shell implosion performance is the low-mode asymmetries. Recently, the experiments on the evolution of low-mode asymmetries introduced by x-ray P2 drive asymmetry during double shell implosions were carried out on the SG facility, where the outer shell and inner shell shapes were measured through the backlit radiography, and the fuel shape near stagnation was measured by core x-ray self-emission imaging. The time-dependent x-ray flux symmetry was controlled by varying the inner cone fraction, defined as the ratio of the inner cone power to the total laser power, while keeping the drive temperature histories same across experiments. Both the hohlraum radiation and the capsule implosions were analyzed using a two-dimensional radiation-hydrodynamics code. Comparing the experimental radiographs and self-emission images to the simulations, it is found that the simulated outer shell, inner shell and hot spot shapes are in qualitative agreement with experiments, especially, the symmetry swings of the hot spot shape near stagnation are observed from both experimental and simulation results. Further, the effect of x-ray drive asymmetries on double shell implosion performance is preliminarily investigated using numerical simulations. We find that the azimuthal variations in radial velocity caused by drive asymmetries can generate azimuthal mass flow of the inner shell, thus kinetic energy of the inner shell would be not converted into fuel internal energy with high efficiency, and the mass-averaged ion temperature of the fuel at stagnation would be reduced.
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SG 设施双壳内爆过程中 X 射线 P2 驱动不对称引入的低模不对称的演变
双壳囊可以在相对较低的温度(∼3 keV)下提供潜在的低聚变点火。双壳内爆性能下降的主要原因之一是低模不对称。最近,在 SG 设备上进行了双壳内爆过程中 X 射线 P2 驱动不对称引入的低模不对称演变实验,通过背光射线照相测量了外壳和内壳形状,并通过堆芯 X 射线自发射成像测量了停滞附近的燃料形状。随时间变化的 X 射线通量对称性是通过改变内锥体分数(定义为内锥体功率与激光总功率之比)来控制的,同时保持各次实验的驱动温度恒定不变。使用二维辐射流体力学代码分析了呼伦辐射和囊内爆。对比实验辐射图和自发射图像与模拟结果,发现模拟的外壳、内壳和热点形状与实验结果基本一致,特别是实验和模拟结果都观察到了停滞附近热点形状的对称摆动。此外,我们还利用数值模拟初步研究了 X 射线驱动不对称对双壳内爆性能的影响。我们发现,由驱动不对称引起的径向速度方位角变化会产生内壳的方位角质量流,因此内壳的动能不会高效地转化为燃料内能,燃料在停滞时的质量平均离子温度也会降低。
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来源期刊
Nuclear Fusion
Nuclear Fusion 物理-物理:核物理
CiteScore
6.30
自引率
39.40%
发文量
411
审稿时长
2.6 months
期刊介绍: Nuclear Fusion publishes articles making significant advances to the field of controlled thermonuclear fusion. The journal scope includes: -the production, heating and confinement of high temperature plasmas; -the physical properties of such plasmas; -the experimental or theoretical methods of exploring or explaining them; -fusion reactor physics; -reactor concepts; and -fusion technologies. The journal has a dedicated Associate Editor for inertial confinement fusion.
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