排序方式: 共有51条查询结果,搜索用时 15 毫秒
41.
42.
金属丝电爆炸包含丰富的物理内容,近年来国内的实验和理论研究取得了重要进展,理解该过程有助于完善Z箍缩及磁加载等离子体动力学过程的物理建模,校验物性参数。在自相似运动假设条件下,发展了冷启动计算的水中电爆炸丝零维动力学模型。从一维磁流体模型出发,推导了描述丝等离子体膨胀的零维动能方程和内能方程,采用实际气体状态方程和修正的李-莫尔电导率参数作为封闭条件,根据质量守恒及水中激波雨贡纽关系式获得了丝等离子体的边界条件。应用于水中铜丝电爆炸动力学过程和能量转化分析,结果表明:该零维模型的物理假设合理,在一定范围内改变丝直径等参数可产生不同的放电模式,与一维模型及实验结果符合较好,能够为同类实验的优化设计和数据分析提供参考。 相似文献
43.
把薛定谔方程当成扩展了的经典力学中的雅科毕-哈密顿方程,对单个粒子在均匀场U(x)~±x中的运动进行因果描述。严格求解薛定谔方程,得到了上述两种情况下具有量子力学能级分立特性的粒子的速度随空间位置变化的曲线u(x),这两条速度曲线u(x)都可以遵循对应原理退化到与经典力学的速度曲线Ucla(x)重合。 相似文献
44.
利用一维三温辐射磁流体力学程序对氖气和铝丝阵Z箍缩内爆过程中的能量转换过程进行了详细的数值研究,发现在内爆过程中离子和电子之间的碰撞能量交换是最主要的能量交换过程,其次是电子和光子之间的光电过程和轫致过程,而康普顿散射过程中的能量交换可以忽略不计;辐射出的x射线主要是在光电激发和光电复合过程中产生的,其次是在轫致辐射过程和康普顿散射过程中产生的.理论分析表明,辐射出的x射线能量可以超过,也可能小于其等离子体最大动能.数值模拟结果表明,在氖气Z箍缩中,辐射出的x射线能量没有超过其等离子体最大动能,而在铝丝阵列内爆中,辐射出的x射线能量超过了其等离子体最大动能,但小于磁压所做的功;在整个Z箍缩过程中欧姆加热能量是较小的.
关键词:
Z箍缩
能量转换
x射线辐射 相似文献
45.
46.
Based on the hydrodynamic shell-on-shell collision model, the Z-pinch processes of nested tungsten wire-array in Sino-Russian joint experiments on Angara-5-1 facility are simulated by means of our one-dimensional three-temperature radiation magneto-hydrodynamic code. The results show the evolutions of x-ray radiation burst, implosion trajectories of interfaces, current transfer in inner and outer wire-array plasmas, and the temporal and spatial changes of magnetic field and current density in the process. About 20% of the total driven current is transferred into the inner wire-array plasma by convection and diffusion of magnetic field when the two shells are pinched closest. Compared to the measured x-ray power, the simulated full width at half maximum and time at the strongest radiation agree approximately with the measured values. It is also demonstrated in our simulation that the radiation of nested wire-array Z-pinch is enhanced. The effects of fluctuations of driven current on yields of x-ray are also investigated. 相似文献
47.
在分析了喷气Z箍缩内爆等离子体物理过程的基础上,作了必要的假定和简化,给出了物理模型和相应的数学方程组.研制了一维三温辐射磁流体动力学的数值模拟程序,对氖喷气Z箍缩内爆产生高温高密度等离子体过程进行了总体数值模拟,得到了等离子体各参量在内爆过程中的时空分布,再现了该内爆动力学整体过程,并与GAMBLE-Ⅱ装置的实验结果进行了比较.计算结果表明,在对热传导系数和等离子体电阻率作适当调整后,得到的计算结果是自洽的,其中内爆到心时刻、x射线辐射脉冲的脉宽和总能量等宏观量与实验结果比较接近.同时对喷气Z箍缩内爆过
关键词:
喷气Z箍缩
x射线辐射
辐射磁流体动力学 相似文献
48.
采用等效电路和零维分析方法,建立了双层丝阵Z箍缩内爆动力学的物理模型. 研究了内、外层丝阵电感分布及其变化对双层丝阵内爆动力学模式的决定性影响,结果表明丝阵的初始电感决定了初始电流分配,动态电感变化影响丝阵内爆的动力学过程. 提出由于电感的变化可能存在四种不同的双层丝阵内爆动力学模式. 针对“强光一号”装置Z箍缩双层丝阵负载参数进行计算分析,可以得到外层等离子体穿透内层先运动到芯的动力学模式,与其他低电流装置在实验上观察到的物理图像一致.
关键词:
Z箍缩内爆等离子体
双层丝阵负载
电感
动力学模式 相似文献
49.
系统和负载参数对喷气式Z箍缩过程的影响 总被引:2,自引:0,他引:2
宁成 《核聚变与等离子体物理》2001,21(1):43-48
利用改进的零维雪铲模型计算了喷气式Z箍缩装置的系统和负载参数(系统特征电感和电阻、气柱质量和外半径等)对电流波形和箍缩动力学过程的影响。结果表明,电流波形和箍缩过程对系统特征电感和电阻的变化非常敏感;气柱质量和外半径对电流波形的影响不大,仅影响等离子体箍缩到心的时间和速度;电感和运动阻抗随箍缩过程的进行而增大;Z箍缩装置的能量转换效率是较高的。 相似文献
50.
Analytical studies on the evolution processes of rarefied deuterium plasma shell Z-pinch by PIC and MHD simulations
下载免费PDF全文
![点击此处可从《中国物理 B》网站下载免费的PDF全文](/ch/ext_images/free.gif)
In this paper, we analytically explore the magnetic field and mass density evolutions obtained in particle-in-cell(PIC)and magnetohydrodynamics(MHD) simulations of a rarefied deuterium shell Z-pinch and compare those results, and also we study the effects of artificially increased Spitzer resistivity on the magnetic field evolution and Z-pinch dynamic process in the MHD simulation. There are significant differences between the profiles of mass density in the PIC and MHD simulations before 45 ns of the Z-pinch in this study. However, after the shock formation in the PIC simulation,the mass density profile is similar to that in the MHD simulation in the case of using multiplier 2 to modify the Spitzer resistivity. Compared with the magnetic field profiles of the PIC simulation of the shell, the magnetic field diffusion has still not been sufficiently revealed in the MHD simulation even though their convergence ratios become the same by using larger multipliers in the resistivity. The MHD simulation results suggest that the magnetic field diffusion is greatly enhanced by increasing the Spitzer resistivity used, which, however, causes the implosion characteristic to change from shock compression to weak shock, even shockless evolution, and expedites the expansion of the shell. Too large a multiplier is not suggested to be used to modify the resistivity in some Z-pinch applications, such as the Z-pinch driven inertial confinement fusion(ICF) in a dynamic hohlraum. Two-fluid or Hall MHD model, even the PIC/fluid hybrid simulation would be considered as a suitable physical model when there exist the plasma regions with very low density in the simulated domain. 相似文献