The energy confinement and the particle confinement after injection are improved.
注入改善了等离子体的能量和粒子约束性能。
Particle confinement time is enhanced 2.1times and energy confinement time, meanwhile, is enhanced 1.6 tines after rampingcurrent up.
等离子体电流提升后,粒子约束时间提高了2.1倍,能量约束时间提高了1.6倍。
The impurity transport is anomalous. the particle confinement could be improved in a certain condition during the low hybrid current drive.
在一定条件下低混杂波电流驱动可以改善等离子体粒子约束。
Instead of adding a new property to the dark particles, it exploits the inherent tendency of any quantum particle to resist confinement.
它不在暗粒子身上添加新的性质,反而剔除任何量子粒子与生俱来的特性,以减少限制。
Thus, confinement effects modify electron energy levels, similar to a particle in a box, whereby Coulomb blockade effect arises as a consequence of the discrete nature of electric charges.
因此,限制效应改变了电子能水平,就好像一个装在盒子中的颗粒,这就是为什么电荷的离散特性会导致库仑阻塞效应的原因。
Due to quantum confinement effect, band gap of semiconductor nanocrystals (NCs) is dependent on the particle size.
由于量子限域效应,半导体纳米晶的能带宽随粒子大小而改变。
Motion of charged particles in magnetic field confinement was simulated with single particle approximation. The simulated results differ from those calculated with classical theory.
由单粒子轨道理论,从分析磁镜场中荷电粒子的受力情况出发,应用计算机数值求解方法模拟了磁镜场中荷电粒子的运动情况。
Motion of charged particles in magnetic field confinement was simulated with single particle approximation. The simulated results differ from those calculated with classical theory.
由单粒子轨道理论,从分析磁镜场中荷电粒子的受力情况出发,应用计算机数值求解方法模拟了磁镜场中荷电粒子的运动情况。
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