Effect of ablation on the nonlinear spike growth for the single-mode ablative Rayleigh–Taylor instability

IF 4.8 1区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY
J. Fu, H. Zhang, H. Cai, P. Yao, S. P. Zhu
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引用次数: 5

Abstract

The effect of ablation on the nonlinear spike growth of single-mode ablative Rayleigh–Taylor instability (RTI) is studied by two-dimensional numerical simulations. It is shown that the ablation can reduce the quasi-constant velocity and significantly suppress the reacceleration of the spike in the nonlinear phase. It is also shown that the spike growth can affect the ablation-generated vorticity inside the bubble, which further affects the nonlinear bubble acceleration. The vorticity evolution is found to be correlated with the mixing width (i.e., the sum of the bubble and spike growths) for a given wave number and ablation velocity. By considering the effects of mass ablation and vorticity, an analytical model for the nonlinear bubble and spike growth of single-mode ablative RTI is developed in this study. It is found that the nonlinear growth of the mixing width, induced by the single mode, is dominated by the bubble growth for small-scale ablative RTI, whereas it is dominated by the spike growth for classical RTI.
烧蚀对单模烧蚀瑞利-泰勒不稳定性非线性尖峰生长的影响
通过二维数值模拟研究了烧蚀对单模烧蚀瑞利-泰勒不稳定性非线性尖峰生长的影响。结果表明,烧蚀可以降低准恒定速度,显著抑制非线性相位尖峰的再加速度。尖峰的生长会影响气泡内部的烧蚀涡量,进而影响气泡的非线性加速度。在给定波数和烧蚀速度下,涡度演化与混合宽度(即气泡和尖峰生长之和)有关。考虑质量烧蚀和涡量的影响,建立了单模烧蚀RTI非线性气泡和尖峰生长的解析模型。结果表明,在单模态下,混合宽度的非线性增长主要以气泡增长为主,而在经典RTI中以尖峰增长为主。
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来源期刊
Matter and Radiation at Extremes
Matter and Radiation at Extremes Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
8.60
自引率
9.80%
发文量
160
审稿时长
15 weeks
期刊介绍: Matter and Radiation at Extremes (MRE), is committed to the publication of original and impactful research and review papers that address extreme states of matter and radiation, and the associated science and technology that are employed to produce and diagnose these conditions in the laboratory. Drivers, targets and diagnostics are included along with related numerical simulation and computational methods. It aims to provide a peer-reviewed platform for the international physics community and promote worldwide dissemination of the latest and impactful research in related fields.
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