把单粒子模型中粒子导向中心漂移现象推广到磁流体力学和等离子体中去。
This paper expands the particle drift in single particle model to the magnetic hydrodynamics and the plasma.
采用柱螺旋坐标系,把广义磁流体力学方程组简化为四元一阶微分方程组。
In cylindrical helical coordinates, generalized magnetohydrodynamic (MHD) equations are reduced to four first order differential equations.
着重讨论了耀斑理论模型中的磁流体力学方面的问题,并指出了其存在的问题。
This paper focuses on elucidationg MHD in models of flare theory and the problems in connection with it.
磁流体力学数值解析方法,磁流体力学数值模拟方法,非线性波传播及其应用。
Analytic Methods in Magnetohydrodynamics, Numerical Methods in Magnetohydrodynamics, Nonlinear Wave Propagation and Its Applications.
一般由热对流驱动的流动通过磁流体力学过程产生并维持在行星和恒星中的磁场。
It is the fluid motions, usually driven by thermal convection, that generate and sustain magnetic fields through magnetohydrodynamic processes in planets and stars.
利用理想磁流体力学模型对有轴向剪切流的Z箍缩等离子体不稳定性进行了分析。
A magnetohydrodynamic formulation is derived to investigate the mitigation effects of the sheared axial flow on the Rayleigh-Taylor (RT) instability in Z-pinch plasma.
利用磁流体力学理论,阐明这类星球自转的不均匀性,是磁制动的不均匀性引起的。
By using magnetohydrodynamics, it may be explained that the asymmetry rotation of these asters is due to the asymmetry of magnetic brake.
本文研究了磁流体力学与高频等离子体波(包括纵横模式)之间的精巧的相互作用。
The subtle interactions between magnetohydrodynamics and high-frequency plasma waves involving transverse and longitudinal modes are investigated.
电磁铸造技术是建立在电磁流体力学基础上,并与冶金工程相结合的先进材料加工方法。
Electromagnetic casting (EMC) is an original material processing technology and a comprehensive subject based on magneto-hydrodynamics (MHD) and combined with metallurgical engineering.
据金属凝固理论和磁流体力学分析,电磁搅拌力引起的动量对流对补缩的促进作用并不大。
Based on theory analysis of metal solidification and hydrodynamics, momentum convection generated by rotating electromagnetic field do not improve feeding obviously.
本文着重讨论了流体和磁流体力学在日震学方面和恒星形成中吸积和外流这两方面的应用。
This paper focuses on the application of hydrodynamics and magnetohydrodynamics to solar oscillations and accretion process and outflow in star formation.
采用二维三分量磁流体力学数值模拟方法,研究了线性无力场对电流片的自发重联的影响。
Using the multistep implicit scheme, a numerical study was made to reveal the influence of linear force-free field to the spontaneous reconnection of current sheets.
本文利用理想磁流体力学(MHD)模型对含有轴向流动的Z箍缩等离子体不稳定性进行了分析。
A linear analysis of the ideal magnetohydrodynamic (MHD) stability of the Z-pinch is presented in which plasma flows are included in the equilibrium.
地球磁场的演化历史对研究地核与地幔边界的动力学和地核内的磁流体力学过程提供了重要的信息。
The history of the Earth's magnetic field provides basic information on the dynamics of core mantle boundary and core convection.
用多组份磁流体力学方程导出了有线捆作用的热电子等离子体中,低频等离子体交换模的色散关系;
The dispersion relation for the low-frequency plasma interchange modes in a hot-electron plasma with line-tying function is solved by using the MHD equ. of multiple species.
论述了托卡马克等离子体磁流体力学平衡位形重建与计算、不稳定性计算与分析模拟研究中的主要技术。
The main techniques of the simulation of the magnetohydrodynamic equilibrium configures and instabilities in Tokamak plasmas are presented.
在对二维理想磁流体力学方程组采用多步隐格式进行数值处理后,利用长时间渐近方法计算得到了太阳风的盔状流动解。
After treating the two-dimensional ideal MHD equations with a multistep implicit scheme, we obtained a helmet streamer solution of the solar wind near the sun by use of the numerical method.
采用理想磁流体力学方程组(MHD)作为太阳大气动力学过程的控制方程组,定性数值模拟日冕物质抛射(CME)现象。
The ideal Magnetohydrodynamic equations (MHD), the governing equations of the solar atmosphere dynamical process, are taken to numerically simulate Coronal Mass Ejection (CME) phenomena.
根据电磁场和磁流体力学理论,设计制造了以永磁体为工作介质,对金属液具有磁力驱动控制作用的双磁力驱动流体流动控制器。
Base on the theory of electromagnetic field and magneto hydrodynamic, an apparatus of double-driving by magnetic force media with permanent magnet has been designed and manufactured.
从电磁场和流体力学的理论出发,建立了交流磁流体推进系统的二维数学模型。
With the theory of electromagnetic field and the theory of hydrodynamic, a 2-D mathematics model of internal planar AC-MHD thruster is built.
从电磁场和流体力学的理论出发,建立了交流磁流体推进系统的二维数学模型。
With the theory of electromagnetic field and the theory of hydrodynamic, a 2-D mathematics model of internal planar AC-MHD thruster is built.
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