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- The simulation of ionic radial density in high intensity ion beam 强流离子束离子径向密度分布的模拟研究
- Effect of Controllers on Ionic Radial Density of High Intensity Ion Beam 控制信息对强流离子束径向密度分布的影响
- Effect of Mismatch Factor and Tune Depression Factor on High Intensity Ion Beam 失匹配因子和调谐因子对强流离子束的影响
- FILLING FACTOR EFFECT ON THE DENSITY OF BEAM PARTICLES IN CONTROL OF HIGH INTENSITY ION LINAC'S BEAM HALO-CHAOS 强流加速器束晕控制中填充因子对束粒子密度的影响
- FILLING FACTOR EFFECT ON THE MAXIMAL BEAM RADIUS IN CONTROL OF HIGH INTENSITY ION LINAC'S BEAM HALO-CHAOS 加速器束晕控制中填充因子对束半径的影响
- high intensity ion beam 强流离子束
- High power led is a kind of high intensity led. 高功率发光二极管是一种高强度的主导。
- A new electron impact storage ion source has been designed for time of flight mass spectrometers with a high mass resolving power and high sensitivity. 电子轰击存贮型脉冲离子源是为高分辨率、高灵敏度飞行时间质谱仪设计的新型离子源。
- Request approach and R/W lights on, in high intensity. 请开放高强度进近和跑道灯光。
- Low drive current. High intensity of light emission. 驱动电流低,发光强度高。
- The high intensity of a laser beam makes it a convenient drill. 激光束的强度极高,这就使它成为一种方便的钻孔工具。
- High power LED have high intensity and wide viewing angles. 高功率导致高强度和宽视角。
- The application of Freeman ion source linked to LC-2A ion implanter is described in the paper. 本文叙述了弗里曼(Freeman)离子源体联接在LC-2A型中能离子注入机上的应用;
- Lamp base is made by aluminum alloy die-casts,and high intensity. 灯体底座采用高压压铸铝成型外壳,灯体强度更好。
- KEYWORDS : GIMS, ion source, anode layer, sputtering, TiN, ion plating, medium frequency, pulsed DC. 中文关键词:气离溅射、离子源、阳极层流、溅射、氮化钛、离子镀膜、中频、脉冲直流。
- The high intensity of a laser beam makes it a convenient drill . 激光束的强度极高,这就使它成为一种方便的钻孔工具。
- TITAN ion source is a new ion source which can produce strong metal and gas ion beam. Use . TITAN离子源是一种新的能够同时产生强金属和气体离子束流的离子源。
- KEYWORDS: GIMS, ion source, anode layer, sputtering, TiN, ion plating , medium frequency, pulsed DC. 中文关键词:气离溅射、离子源、阳极层流、溅射、氮化钛、离子镀膜、中频、脉冲直流。
- An intense ECR ion source for ADS (accelerator driven sub-critical system) is described. 介绍了正在研制的一台强流ECR离子源。
- The MC-SNICS ion source of NEC compact AMS system at the AMS laboratory of Peking University was upgraded recently. 摘要为提高样品测量效率,对MC-SNICS多靶位铯溅射负离子源进行了升级改进。
