在改造完成之后,将可以使用强大的新一代注射器来加热等离子体。
Thus they will be using powerful injectors of new generation to heat plasma.
在受控核聚变研究中,中性束注入已经成为加热等离子体的有效手段。
In fusion research, the neutral beam injection has become an efficient method for heating plasma.
本文考虑环形系统双成份等离子体中快波电场与少数成份离子共振时,快波经回旋阻尼以加热等离子体。
The heating of a two ion-component plasma in a toroidal device through the damping of the electric field of fast wave by cyclotron resonance with minority ions is considered.
主要叙述了MM-2装置通过ECRH加热等离子体并形成热电子环的实验诊断方法,原理、结果和讨论。
The diagnostic methods, experiment results and some discussion in MM-2 ECRH experiment for heating plasma and building a hot electron ring have been presented in this paper.
重点研究了对这样的位形进行绝热压缩加热等离子体问题,给出了在压缩过程中整个平衡位形随时间的演化。
The problem of heating the plasma with such configuration by adiabatic compression is discussed, the variation of all the equilibrium configuration with time during the compression is given.
在反场箍缩条件下可允许用强等离子体电流充分加热等离子体到点火温度,而不需要辅助的中性束或射频加热系统。
The high plasma current allowed in a RFP is expected to be sufficient to heat the plasma to ignition without the need of auxiliary neutral-beam or radio-frequency heating.
地面入射的大功率无线电波能加热电离层等离子体,引起电离层电子温度和密度的扰动,实现电离层的地面人工变态。
The terrestrial ionospheric plasma can be heated by a powerful ground-based high-frequency radio wave, which results in the disturbance of the electron temperature and density.
这种等离子体必须加热至数百万度的高温。
本文在导出激光等离子体电子、离子耦合方程的基础上求得了单频加热无穷行列特征矩阵的准确解;
In this paper accurate solutions for the single frequency heating conditions have been obtained based on equations derived for laser plasma electron-ion coupling.
本文给出了一组动力箍缩方程,它描述了场反向位形中等离子体的动力箍缩和加热。
In this paper, a set of dynamical equations is derived for the implosion and heating of plasma in a field-reversed pinch.
在计算过程中,考虑了低气压等离子体无碰撞随机加热机制的作用。
Special consideration was given to the collision-free stochastic heating of the low pressure plasma.
测量了激光加热块状银靶产生的等离子体XUV光谱。
The XUV spectra from Ag XIX of laser-produced plasma are measured.
等离子体片中的粒子被加热和加速后,注入近地空间,产生环电流和极区亚暴。
The particles are heated and accelerated in the plasma sheet, and then injected into the near earth space, and produce the ring current and auroral substorm.
对于等离子体加热、先进加速器、雷达、通讯及电子对抗、微波武器等领域有很大应用价值,受到了世界各国的高度重视。
And it can produce high output power in pulse and continuum wave. It can be used in plasma heating, accelerator, radar, communication, electron rivalry, microwave weapon and so on.
本文讨论了环流器等离子体在快加热过程中位形演变的近似描述问题。
The approximate description of tokamak plasma evolution during fast heating is discussed.
为加热HT-6M托卡马克等离子体而研制的IS-A十厘米双潘宁离子源具有强流、大功率、高质子比等特点。
IS-A type 10cm duopigatron ion source that was made for heating plasma In the HT-6M Tokamak has high current, high power and high proton composition.
转动机构可以推动平面镜环向、极向转动,进行不同区域的等离子体的加热和电流驱动。
The plane mirrors can be rotated toroidally and poloidally to heat plasma and drive plasma current in different regions.
研究等离子体加热和粒子加速问题,是等离子体物理和等离子体天体物理中的重要课题。
Both the heating of plasma and the acceleration of particles are important topics in plasma physics and plasma astrophysics.
电弧加热器系统是电弧等离子体风洞最重要的组成部分。
Arc heater system is the most important component of plasma wind tunnel.
电弧加热器系统是电弧等离子体风洞最重要的组成部分。
Arc heater system is the most important component of plasma wind tunnel.
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