1)ICRF离子回旋加热
1.Study of liquid impedance matching for ICRF on the EAST tokamak;EAST装置离子回旋加热液态阻抗匹配系统的研究
英文短句/例句
1.Electromagnetic design and analysis of EAST ICRF antennaEAST离子回旋加热(ICRF)天线真空馈口电分析
2.Design of Anode Power Supply of High Power RF Amplifier for Ion Cyclotron Resonance Heating System in EASTEAST离子回旋加热系统高功率射频放大器阳极电源的研制
3.A COMPARISON BETWEEN AN ION-CYCLOTRON RESONANCE MODEL FOR HEATING AND ACCELERATION OF THE SOLAR WIND AND THE OBSERVAIONS ON THE SOLAR POLAR CORONA HOLE BY UVCS ON SOHO回旋波共振加热加速的多重离子流体模型
4.ION-CYCLOTRON-RESONANCE HEATING MECHANISM OF THE HELY IONS IN LOWER SOLAR POLAR CORONA太阳极区低日冕重离子的回旋波加热机制
5.Development of Monitoring System for High Powered ICRF Heating System高功率离子回旋波加热监测系统的设计
6.Study of Hot Plasma Dielectric Tensor in the Range of Ion Cyclotron Wave离子回旋频段内热等离子体介电张量研究
7.Development of 2MW ECRH system on the HL-2A tokamakHL-2A装置2MW电子回旋共振加热系统研制
8.ion cyclotron resonance mass spectrometer离子回旋共振质谱计
9.ion cyclotron resonance mass spectrometry离子回旋共振质谱法
10.radial betatron oscillations径向电子回旋加速岂荡
11.electron induction accelerator电子感应回旋加速器
12.microtron resonator电子回旋加速器共振器
13.Numerical Simulation on Microwave Electron Cyclotron Resonance Plasma;微波电子回旋共振等离子体数值模拟
14.strong-focusing cyclotron with separated orbits分离轨道强聚焦回旋加速器
15.separated turn isochronous cyclotron分离圈等时性回旋加速器
16.pulsed ion cyclotron resonance spectrometer脉冲离子回旋共振波谱仪
17.Fourier transform ion cyclotron resonance mass spectrometer (FT-ICR-MS)傅立叶变换离子回旋共振质谱计
18.In this paper,the effect of hot electron and warm(hot) ion components on the drift-cyclotron-instability(DCI)is studied.分析了热电子、温(热)离子成分对离子漂移?旋不稳定性的影响。
相关短句/例句
ion cyclotron range of frequency heating(ICRH)离子回旋波加热
3)ICRH离子回旋共振加热
1.ICRH SYSTEM AND INITIAL EXPERIMENTSIN THEHL-1M TOKAMAK;HL-1M装置离子回旋共振加热系统及初步实验
2.Through analysis of the system efficiency and key technologies it is pointed that the key problems of designing a fine VASIMR are the development of high performance helicon wave plasma source and the improvement of the ICRH sy.介绍了VASIMR的基本组成(螺旋波等离子体源、离子回旋共振加热系统I-CRH、磁喷嘴)及工作原理。
3.Using a new array of five iodine mercury (HgI 2) semi conductor detectors,the radiation flux and the energy spectra of X ray in the range of 10~150keV are measured under the condition of ohmic heating,pellet injection and ion cyclotron resonance heating (ICRH) respectively.用新研制的五通道碘化汞 ( Hg I2 )半导体探测器阵列分别观测了在欧姆加热、弹丸注入及离子回旋共振加热 ( ICRH)条件下 ,HL- 1M等离子体中的超热电子引起的能量在 10~ 15 0 ke V范围内的 X射线辐射强度的时空变化 ,及超热电子辐射的 X射线能谱。
4)ion cyclotron resonant heating离子回旋共振加热
1.Experiments have been carried out with encouraging results on the full wave current drive and plasma current ramp\|up by low hybrid waves (LHW), high power ion cyclotron resonant heating (ICRH), synergy between LHW and ICRH, RF conditioning and low voltage start\|up.HT - 7超导托卡马克在过去的一年中取得较大进展 :高参数放电时间长度接近 4s,总加热功率超过 1MW ,在低杂波全波驱动、电流爬升、离子回旋共振加热、双波协同效应、射频壁处理、低环电压启动等方面都取得可喜的结果 。
5)ECRH电子回旋加热
1.OFF-AXIS ECRH EXPERIMENTS IN THE HL-1M TOKAMAK;HL-1M装置中的离轴电子回旋加热实验
6)heavy ion cyclotron重离子回旋加速器
延伸阅读
傅里叶变换离子回旋共振质谱仪分子式:CAS号:性质:傅里叶变换回旋共振质谱仪是在回旋共振质谱仪的基础上发展起来的一种新型质谱仪,它的核心是带傅里叶变换程序(FT程序)的计算机和捕获离子的分析室。分析室是一个立方体结构,离子的产生,分析和检测都在分析室进行。由电子束与样品碰撞产生的离子,在强磁场作用下被迫以很小的轨道半径运动,不产生可检出信号。如果在发射极上加一个快速扫频电压,当满足共振条件时,离子吸收射频能量,轨道逐渐增大,产生可检出信号。这种信号是一种正弦波式的时间域信号,其频率与离子固有的回旋频率相同。振幅与离子数目成正比。实际测得的信号是在同一时间内所对应的正弦波信号的叠加,这种信号输入计算机进行快速傅里叶变换,便可检出各频率成分,利用频率和质量的已知关系可得到正常的质谱图。傅里叶变换质谱仪具有分辨率高(可达100万以上),灵敏度高(可达pg量级),扫描速度快和结构简单等特点。
