1) magnetic mirror field
磁镜场
1.
The effect of magnetic mirror field on the electric properties of SnO 2 thin films is investigated.
实验中通过改变磁镜场的磁镜比和磁场大小 ,研究了弱磁场对SnO2 薄膜方块电阻及电阻分布的影响。
2.
The experimental results showed that it was possible to decrease the oxygen flow and shorten the depositing time, but the sheet resistance of SnO 2 thin film became low and its uniformity high, when the ratio of applied longitudinal magnetic mirror field was appropriate.
实验结果表明,外加适当位形、大小的纵向磁镜场,可使等离子体化学气相沉积技术中制备SnO2薄膜所需的氧气流量降低,沉积时间缩短,且制得的薄膜电阻大大降低,轴向分布均匀性明显增强。
2) Magnetic mirror
磁镜场
1.
In the direct coupled Microwave Plasma Chemical Vapor Deposition (MPCVD)diamond film device, magnetic mirror is used upon quartz tube reaction chamber lens to better constraint shape of plasma ball.
在自行设计的直接耦合石英管式微波等离子体化学气相沉积(Chemical Vapor Deposition,CVD)金刚石膜装置的石英管反应腔加上磁镜场来约束等离子体,使等离子体球成为"碟盘"状,提高了等离子体球的密度,在基本参数为反应压力2。
3) magnetic image method
磁场镜像法
1.
The electromagnetic model for coil inductance calculation is built based on magnetic image method.
基于直线同步电机的气隙检测,对电涡流传感器线圈电感与矽钢叠片电磁特性之间关系分析和实验研究,认为线圈电感随间隙的变化电感效应起了主要作用,建立了基于磁场镜像法的电磁计算模型,计算了空载和矽钢叠片影响下的电感,与仿真结果对比和分析,并得出结论:间隙小于10mm时,计算和仿真结果误差比较小,为复杂结构线圈提供可行的近似计算方法。
4) mirror-magnetic field fetter
磁镜场约束
5) Magnetic force miscroscopy (MFM)
磁场力显微镜(MFM)
6) magnetic mirror
磁镜
1.
The model of the magnetic mirror effect in the unbalanced magnetron sputtering ion beams;
非平衡磁控溅射系统离子束流磁镜效应模型
2.
Discusses the noise and its frequency band produced both by a 5t magnetic mirror bi-electic DC EAF and the same size three-phase AC EAF during melting period in the steelmaking workshop of Beijing Heavy Machine Plant, as well as the stable-constant magnetic field produced by a magnetic mirror coil.
对北京重型机器厂炼钢分厂5t磁镜式双电极直流电弧炉(简称直流电弧炉)和同容量三相交流电弧炉熔化期产生的噪音和频谱、磁镜线圈产生的稳恒磁场进行了初步研究。
3.
The motion of the plasma with an initial velocity distribution in magnetic mirror field is described by using PIC particle simulation methods, and the particle tracks of the plasma motion in magnetic mirror field can be obtained.
用PIC粒子模拟的方法描绘具有初始速度分布的等离子体在磁镜场中的运动状态 ,得出等离子体在磁镜场中的运动轨迹图 ,形象表现了磁镜场对等离子体的约束作用 ,表明用PIC粒子模拟方法探索在磁镜场中等离子体运动的物理过程和规律是可行的和有效的 。
补充资料:显微镜装有场发射枪的扫描电子显微镜,分辨率为20
[图]
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条