Probe array used for the measurement of transient RF impedance in ion cyclotron resonance heating (ICRH) experiment often gives erroneous results.
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。
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.
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 pressure wave strength, the cooling effect and heating effect of the tube are the strongest in a state of resonance.
谐振状态下管内出现最强的压力波并产生最强的冷效应和热效应。
The series resonance circuit is simple, its start easy and resonance-frequency high. It is suitable in small power induction heating supply.
串联谐振电路简单、启动容易、谐振频率高,适应于小功率感应加热电源系统。
Off axis electron cyclotron resonance heating (ECRH) experiments have been performed in the HL-1M tokamak.
在HL1M装置上进行了离轴电子回旋加热实验。
In this way, the single oscillator circuit part (310) and the single induction heating coil (200) are used to effectively induction heat the object (201) by means of the dual frequency resonance.
通过一个振荡电路部分(310)采用一个感应加热线圈(200)以两个频率进行谐振对被加热物体(201)进行高效率的感应加热。
The design of the high power millimeter wave transmission line for Electron Cyclotron Resonance Heating (ECRH) system on the HT 7 Tokamak was given.
给出了用于HT7超导托卡马克聚变实验装置的电子回旋共振加热(ECRH)系统大功率毫米波传输线的设计。
Describes a kind of PWM PFM hybrid control method for voltage fed series resonance inductive heating and provides an experimental circuit.
叙述了一种电压源供电的串联感应加热负载的PWMPF M混合控制方法,并给出了实现的方法和实验电路。
The Faraday shield is one of the important components in the ion cyclotron resonance frequency (ICRF) heating antenna of EAST.
在EASTICRF天线中,法拉第屏蔽是ICRF天线中的一个非常重要的部件。
The Faraday shield is one of the important components in the ion cyclotron resonance frequency (ICRF) heating antenna of EAST.
在EASTICRF天线中,法拉第屏蔽是ICRF天线中的一个非常重要的部件。
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