ion temperature

美 [ˈaɪən ˈtemprətʃər]英 [ˈaɪən ˈtemprətʃə(r)]
  • 网络离子温度
ion temperatureion temperature
  1. Measurement of Ion Temperature of Plasma Using Doppler Broadening of Spectral Line

    利用谱线的多普勒展宽测定等离子体离子温度

  2. The measurement of plasma ion temperature and recycling particle flow velocity with spectral method

    光谱法测量等离子体离子温度和再循环粒子流速

  3. Solut ion Temperature Control Method Based on Pattern Recognition

    在模式识别下的萃取液温度控制方法研究

  4. Vibration mirror for measurement of plasma ion temperature

    振镜法测量等离子体离子温度

  5. Measurement of plasma ion temperature and rotation velocity

    等离子体离子温度和角向旋转速度的测量

  6. The experimental study of fuel ion temperature and neutron yield for directly driven implosion

    激光直接驱动内爆中子产额实验诊断

  7. Zeeman effect and spectroscopic measurements of the ion temperature in edge plasma

    塞曼效应与边缘离子温度的光谱测量

  8. Ion temperature measurement in the HT-6 B Tokamak by spectroscopic method

    HT-6B装置离子温度的光谱法测定

  9. Influences of the ion temperature on the nonlinear electrostatic waves in magnetized plasma

    离子温度对磁化等离子体中非线性静电波的影响

  10. Discussions about the curves of ion temperature and density measured by the probe are also presented .

    描述了这种静电离子探针的工作原理及主要的设计参数,对从探针特性曲线得到的离子温度及密度也予以讨论。

  11. A new method of measuring fusion speed and ion temperature of plasma with deuterium and tritium

    测量瞬态氘氚聚变等离子体聚变过程及温度的新方法

  12. With the microwave power increase , the electronic excitation temperature and ion temperature increase with a different extent .

    电子激发温度随气压的升高不断降低,气压的变化对离子温度的影响不大,随着微波功率的上升,电子激发温度和离子温度都有不同程度的增加。

  13. But the ion temperature is increased slightly , for the mass of cold region is too large .

    离子温度因为主燃料区质量过大,提高不大。

  14. The instability analysis of ion temperature gradient driven in a tokamak plasma with negative magnetic shear

    负磁剪切等离子体中离子温度梯度驱动不稳定性分析

  15. Change of ion temperature during neutral beam injection in the HL 1M Tokamak

    HL-1M中性束注入期间离子温度的变化

  16. Effects of impurity on parallel velocity shear and ion temperature gradient instabilities in plasmas

    杂质对等离子体平行速度剪切及离子温度梯度不稳定性的影响

  17. Linear and Nonlinear Ion Temperature Gradient Driven Modes in Multi-ion Ingredient Plasmas

    多离子成分等离子体中的线性和非线性离子温度梯度模研究

  18. The diagnostics of fuel ion temperature for indirectly driven implosion

    辐射驱动燃料离子温度实验诊断

  19. Ion temperature measurement using bent crystal spectrometer on the HL 1M tokmak

    在HL-1M装置上用弯晶谱仪测量离子温度

  20. Measurement of ion temperature and its fluctuations in the KT 5C Tokamak

    KT-5C托卡马克离子温度及其涨落的实验研究

  21. Ion temperature measurements in the HL-1 TOKAMAK by charge-exchange method

    HL-1装置离子温度的电荷交换法测定

  22. Using VUV lines in ion temperature measurements and observation of instability on the HL-1 TOKAMAK

    用真空紫外谱线测量HL-1装置离子温度和观测等离子体不稳定性

  23. The unstable mode is not sensitive to the ion temperature gradient parameter and the poloidal wavelength .

    高比压下的不稳定模对离子温度梯度和角向波长的变化的响应减弱。

  24. The strong dependence of fusion reaction rate on ion temperature leads to a thermal instability of D T burning plasma .

    由于氘氚反应率与离子温度有很强的依赖关系,氘氚燃烧等离子体是热不稳定的。

  25. Plasma ion temperature has been obtained from fitting remote wing of the distribution of H α lineshape with Gaussian function .

    通过拟合Hα谱线型分布的远翼,由多普勒展宽求出等离子体离子温度。

  26. An apparatus of fast scanning spectral line type has been developed for measuring ion temperature of plasma in HT-6B Tokamak .

    本文论述了利用研制的谱线线形快速扫描仪测定HT-6B托卡马克等离子体离子温度的原理和方法。

  27. By adding remote on-line tracing function into General Graphics visualization system , we realize remote visualization of Grid , Electron temperature , ion temperature and photon temperature .

    设计客户端2D-DVS(通用图形可视化系统),添加远程监控功能,实现网格、电子温度、离子温度和光子温度的跟踪。

  28. An eigenmode equation of ion temperature gradient driven instability in a tokamak plasma with negative magnetic shear is solved numerically by the shooting method .

    采用打靶法,数值求解了在负磁剪切托卡马克等离子体中离子温度梯度驱动的复本征模方程。

  29. The ion temperature and plasma potential were measured by a multi-grid energy analyzer in an electrostatic plugging cusp system MM-4 . The results show-that the plasma potential is ?

    本文叙述了用多栅能量分析器测量静电堵漏会切系统中的离子积分能谱,从而得到离子温度、等离子体电位的原理和方法。

  30. To get the ion temperature Ti and the fuel density ρ R under such low neutron yield , we need to establish a large area neutron detector array to measure the time-of-flight neutron spectrum .

    为了在这样低的中子产额条件下获得离子温度Ti和ρR,需要建立一套大面积中子探测器阵列测量中子的飞行时间谱。