离子回旋共振加热

在离子回旋共振加热（ICRH）实验中用于测量瞬态射频（RF）阻抗的探针列阵常常给出错误的结果。

Probe array used for the measurement of transient RF impedance in ion cyclotron resonance heating ( ICRH ) experiment often gives erroneous results .

给出了在简单磁镜装置MM-2及其改进装置MM-2U中电子回旋共振加热（ECRH）和离子回旋共振加热（ICRH）的实验结果。

The application of ICRH ( Ion Cyclotron Resonance Heating ) in the MM-2U simple mirror plasma which is created and heated by ECRH ( Electron Cyclotron Resonance Heating ) can result in the increases of plasma temperature and density .

托卡马克中离子回旋共振加热（ICRH）的平板模型在计算沿极向尺度较长的天线时误差较大，针对这一问题提出了一种将天线进行分段处理的改进算法，该算法提高了计算精度。

The slab model of tokamak ion cyclotron resonance heating ( ICRH ) coupling calculation gives large error to calculate the poloidal long antenna . In order to solve the problem , an improved algorithm by piecewise linear antenna model is presented and the calculation precision is upgraded .

托卡马克中离子回旋共振加热天线的电动力问题

Electric forces on ICRH antenna in Tokamak caused by plasma disruption

离子回旋共振加热天线阻抗测量系统设计

Design of Ion Cyclotron Resonant Heating Antenna Impedance Measurement System

离子回旋共振加热的电子加热电热毯恒温控制器

ELECTRON HEATING DURING ICRH The Constant Temperature Control Device of Electric Heated Blanket

离子回旋共振加热对低杂波电流驱动的影响

The effect of ion cyclotron resonance heating on lower hybrid current drive in Tokamak Plasma

离子回旋共振加热实验中用于瞬态射频阻抗测量的探针列阵的误差分析

The error analysis of probe array USEP for transient RF impedance measurement in ICR heating experiment

等离子弧加热切削在金属切削加工中的应用研究离子回旋共振加热的离子加热

Apply Research of the Arc Plasma Heating Cutting With Cutting Metal Materials THE ION HEATING DURING ICRH

分步加热法进一步测试，其高比值的He是在低温区段释放的。离子回旋共振加热的电子加热

Stepwise heating measurements have further revealed that He with the highest 3He / 4He ratio was released from the low-temperature area . ELECTRON HEATING DURING ICRH

HT-6M托卡马克离子回旋共振频率加热电荷交换能谱的分析

Analysis of charge-exchange spectra during ICRF heating in the HT-6M Tokamak

研究了HL1M装置离子回旋共振频率加热实验中RF波对MHD的影响。

Effects of RF injection on the behavior of MHD in ICRF experiments on the HL 1M tokamak are presented .

在把离子伯恩斯坦波处理成对快阿尔芬波的响应下，导出了点火托卡马克等离子体的离子回旋共振加热的二阶模转换方程。

By treating the ion Bernstein wave as a driven response to the fast Alfven wave , a second order mode-conversion equation is derived for ion cyclotron resonance heating in two-ion species plasma .