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61.
《等离子体物理论文集》2017,57(8):351-356
The Weibel instability plays an important role in stopping hot electrons and energy deposition mechanism in fast ignition of inertial fusion process. In this paper, the ion Weibel instability in counter propagating electron‐ion plasmas is investigate. The obtained results show that the growth rate of Weibel instability will be decreased about 40% with the anisotropy velocity as vxe = 2vze = 20; the ion density ratio, b = n 0i 1/n 0i 2, and density gradient, are increasing 50 and 90% respectively. The ion streaming in density gradient of dense plasma leads to increasing the Weibel instability growth rate and its amplification through ion streaming in the large wavenumber. The maximum unstable wavenumber has been decreased with decreasing the ion beam density ratio. For fixed ion density ratio, increasing 90% of the density gradient in the near of fuel plasma corona leads to reducing growth rate and unstable wavenumber about 43 and 42% respectively. 相似文献
62.
Predicting the onset of non-spherical oscillations of bubbles in soft matter is a fundamental cavitation problem with implications to sonoprocessing, polymeric materials synthesis, and biomedical ultrasound applications. The shape stability of a bubble in a Kelvin-Voigt viscoelastic medium with nonlinear elasticity, the simplest constitutive model for soft solids, is analytically investigated and compared to experiments. Using perturbation methods, we develop a model reducing the equations of motion to two sets of evolution equations: a Rayleigh-Plesset-type equation for the mean (volume-equivalent) bubble radius and an equation for the non-spherical mode amplitudes. Parametric instability is predicted by examining the natural frequency and the Mathieu equation for the non-spherical modes, which are obtained from our model. Our theoretical results show good agreement with published experiments of the shape oscillations of a bubble in a gelatin gel. We further examine the impact of viscoelasticity on the time evolution of non-spherical mode amplitudes. In particular, we find that viscosity increases the damping rate, thus suppressing the shape instability, while shear modulus increases the natural frequency, which changes the unstable mode. We also explain the contributions of rotational and irrotational fields to the viscoelastic stresses in the surroundings and at the bubble surface, as these contributions affect the damping rate and the unstable mode. Our analysis on the role of viscoelasticity is potentially useful to measure viscoelastic properties of soft materials by experimentally observing the shape oscillations of a bubble. 相似文献
63.
ABSTRACTThe yield drop phenomenon observed in the Ti–15V-3Al–3Sn-3Cr (Ti–15–3) beta-titanium alloy and its anomalous behaviour in the boron and carbon added Ti–15–3 alloys have been studied. While the base and the carbon containing alloys exhibit yield drop, the boron containing alloy with smaller grain size than base alloy does not appear to show this phenomenon. Tensile tests were interrupted at different stress levels followed by analyses of slip lines and sub-structural characteristics using scanning and transmission electron microscopes to understand this anomalous yield point phenomenon. Infrared thermal imaging technique was used to map the strain localisation and the spatiotemporal evolution of deformation along the gauge length of the specimens during the tensile tests. Deformation in these alloys initiates only in a few grains. Pile-up of dislocations in these grains subsequently triggers the formation of dislocations in other grains and their rapid multiplications. The spreading of deformation by the generation of dislocations from pile up dislocations in one grain to neighbouring un-deformed grains and their rapid multiplication to new regions influence the yield drop phenomenon and its characteristics. It is shown in this study that microscopic instability in the grain level is a necessary, but not the sufficient condition for the manifestation of macroscopic instability during tensile deformation in polycrystalline materials. The presence of boride particles at grain boundaries restricts the slip transfer across the grains as well as the spreading of deformation to new regions, which causes the suppression of yield drop in the boron containing alloy. 相似文献
64.
This paper reports a study on self–organized striation plasmas generated under kPa pressure level. It focuses especially on the characteristics of argon striation plasmas, the role of metastable atoms on the generation of striation argon plasmas, and the effect of addition of gas species to the argon striation plasmas. Under our discharge conditions, the generation of argon striation plasmas is related to ionization instability, which is caused by the step‐wise ionization, deviation of the distribution from Maxwellian electron energy distribution, and inhomogeneous gas heating. Nitrogen can effectively quench the argon metastable atoms; therefore, it significantly affects the formation of striation plasma. 相似文献
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66.
《Physics letters. A》2020,384(18):126377
Structure formation in turbulence can be understood as an instability of “plasma” formed by fluctuations serving as effective particles. These “particles” are quantumlike in the sense that their wavelengths are non-negligible compared to the sizes of background coherent structures. The corresponding “kinetic equation” describes the Wigner matrix of the turbulent field, and the coherent structures serve as collective fields. This formalism is usually applied to manifestly quantumlike or scalar waves. Here, we show how to systematically extend it to more complex systems using compressible Navier–Stokes turbulence as an example. In this case, the fluctuation Hamiltonian is a five-dimensional matrix operator and diverse modulational modes are present. As an illustration, we calculate these modes for a sinusoidal shear flow and find two modulational instabilities. One of them is specific to supersonic flows, and the other one is a Kelvin–Helmholtz-type instability that is a generalization of the known zonostrophic instability. Our calculations are readily extendable to other types of turbulence, for example, magnetohydrodynamic turbulence in plasma. 相似文献
67.
李志超 赵航 龚韬 李欣 杨冬 蒋小华 郑坚 刘永刚 刘耀远 陈朝鑫 李三伟 李琦 潘凯强 郭亮 理玉龙 徐涛 彭晓世 吴畅书 张桦森 郝亮 蓝可 陈耀桦 郑春阳 古培俊 王峰 蔡洪波 郑无敌 邹士阳 杨家敏 江少恩 张保汉 朱少平 丁永坤 《强激光与粒子束》2020,32(9):092004-1-092004-14
当前,激光惯性约束聚变在越来越接近点火的极端能量密度条件下,实验与模拟的偏离逐渐增大,一个关键原因是缺乏对黑腔等离子体状态及其影响黑腔能量学和内爆对称性的细致研究和判断。光学汤姆逊散射主动式、诊断精确、参数完备的优点,使之成为激光惯性约束聚变黑腔等离子体状态参数精密诊断的标准方法。中国面向激光惯性约束聚变研究的光学汤姆逊散射实验技术的发展与神光系列激光装置的建设和在其上开展的物理实验紧密相关。近年来,四倍频汤姆逊散射实验技术在神光III原型和100 kJ激光装置上相继建立,部分实验结果不仅加深了对激光惯性约束聚变靶物理的认识,还反映了实验条件对汤姆逊散射诊断的影响,促进了实验技术的精密化发展。在未来,还需要进一步发展多支路汤姆逊散射、五倍频汤姆逊散射和超热相干汤姆逊散射等新技术,面向点火黑腔条件,大幅提升激光等离子体状态参数的诊断精度,开展新物理机制的探索和研究,在激光惯性约束聚变和其他高能量密度物理科学领域发挥更重要的作用。 相似文献
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70.
外部激励作用下液滴的表面失稳特性一直都是流体力学领域十分关注的问题. 在不同的振动激励参数下, 表面会产生不同形态的波形或破碎生成二次液滴. 本文对于液滴表面纬向波和经向波发展的动态特性和产生机理开展了研究. 首先建立激励振幅和频率可控的液滴振荡实验系统. 实验结果表明, 激励振幅的改变会影响液滴表面波形, 振幅较大时经向波才会产生, 演化频率为驱动频率的一半, 而纬向波一直存在, 其频率等于驱动频率. 驱动频率改变会引起失稳模式的转变, 驱动频率增加, 表面波模态数增加、波长减小. 驱动频率超过一定阈值, 波形会从只存在纬向波模式向纬向波叠加经向波模式转变. 同时, 基于三维数值模拟, 通过研究液滴的速度场与压力场, 结合液滴顶点位移与惯性力的相位关系, 阐明液滴形成纬向波的机理: 在惯性力和表面张力的共同作用下, 液滴表面波完成周期性的能量转化和传递. 通过对比分析竖直方向与沿液滴径向加速度下Faraday不稳定性主导的表面波特性, 发现液滴的几何特征使得接触线处产生法向的径向力, 当竖直惯性力增加使得径向力达到一定阈值, 液滴发生经向失稳, 相应经向波频率为驱动频率的一半. 相似文献