The results show that the reflection coefficient near the wall is about 0. 59, and in the plasma of the first discharge after a gas change, the wall-released isotope amount to 65% .
结果表明,等离子体在壁处的反射系数约为0.59,变换工作气体后,在第一次放电的等离子体中,由壁释放的同位素含量约占65%。
The experiment results show that this microwave discharge design is adequate to excite long uniform plasma column for gas lasers.
实验表明,这种微波放电装置是产生长程均匀放电激光等离子体柱的一种有效方法。
Different kinds of plasma sheaths in gas discharge.
气体放电中的各种等离子体鞘层。
Plasma Langmuir flow effect produced by gas discharge was used to make sensitive component move at a certain velocity without further drive part.
利用气体放电产生的等离子体朗缪尔流效应来使敏感元件产生一定速度的运动,不需另外的驱动元件。
The formulas are derived for electron temperature in the plasma of a discharge for a binary mixture gas and a mixture gas possessing Penning effect.
推导了双混合气体和具有潘宁效应的双混合气体的放电等离子体电子温度的理论计算公式。
The plasma can be 4 generated by hot-cathode discharge or RF discharge of gas. In addition, the device has four metal plasma sources, two magnetron sputtering targets, cold and hot target supports.
真空室内的气体等离子体可由热灯丝或射频放电产生,4另外还配置了4个金属等离子体源、两套磁控溅射靶和冷却靶台。
During the steady arc discharge course, liquid is heated up by the hot arc plasma, so a gas bubble is formed around the arc column and affords a gaseous environment for arc discharge.
在电弧稳定燃烧的过程中,液体被电弧的高温所加热,在弧柱周围形成气泡,为电弧提供了一个气体氛围的放电环境。
Microwave plasma thruster can generate free-floating plasma brought about by microwave discharge breakdown gas in resonant cavity without the service life problem produced by electrode ablation.
微波等离子推力器(MPT)的最大优点是微波在谐振腔内放电使工质形成悬浮的等离子体,没有电极的烧蚀与寿命问题。
Microwave plasma thruster can generate free-floating plasma brought about by microwave discharge breakdown gas in resonant cavity without the service life problem produced by electrode ablation.
微波等离子推力器(MPT)的最大优点是微波在谐振腔内放电使工质形成悬浮的等离子体,没有电极的烧蚀与寿命问题。
应用推荐