用双探针技术对生成的氧等离子体进行了诊断测量。
The produced oxygen plasma has been measured by double probe technique.
放电为磁场激励型,稳定的等离子体由电磁场所维持,空间电荷产生的静电场引起荷电粒子的双极扩散。
A steady state plasma is maintained by electromagnetic field and ambipolar diffusion of charged particles is caused by electrostatic field of space charge.
研究了PBO(聚对苯撑苯并双唑)浆粕在氧等离子体不同处理条件下对PBO纸页性能的影响。
The influence of oxygen plasma treatment on the PBO paper properties was studied in this paper.
本文利用基于虚拟仪器的朗缪尔双探针系统对电弧离子镀等离子体进行了诊断研究。
The Langmuir double probe system based on Virtual Instrument was used to diagnose arc ion plating plasmas.
本文用双探针研究等离子体电子复合的时间及空间特性。
Temporal and spatial characteristics of electron recombination in plasma have been studied by using a double cylindrical probe.
为加热HT-6M托卡马克等离子体而研制的IS-A十厘米双潘宁离子源具有强流、大功率、高质子比等特点。
IS-A type 10cm duopigatron ion source that was made for heating plasma In the HT-6M Tokamak has high current, high power and high proton composition.
利用朗缪尔静电双探针诊断了蒸发镀膜装置反应室内等离子体密度及分析其分布规律,并分析了气压和功率对等离子体分布的影响。
The characteristic of spatial distribution of plasma ion density in reaction chamber were diagnosed by a Langmuir double probe, and the effect of Ar pressure and RF power were also investigated.
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 formulas are derived for electron temperature in the plasma of a discharge for a binary mixture gas and a mixture gas possessing Penning effect.
本文考虑环形系统双成份等离子体中快波电场与少数成份离子共振时,快波经回旋阻尼以加热等离子体。
The heating of a two ion-component plasma in a toroidal device through the damping of the electric field of fast wave by cyclotron resonance with minority ions is considered.
用双探针技术对生成的氧等离子体进行了诊断测量。
The produced oxygen plasma has been measured by double probe technique. The obtained oxygen beam has be...
等离子体的参数通过朗缪尔双探针、多通道光谱仪等设备来进行诊断。
The parameters of the generated plasma are diagnosed by Langmuir dual probe and multi-channel optical emission spectroscopy (OES).
在氧气浓度低于30%时,使用自冷却双介质阻挡等离子体反应器,氧气浓度、冷却水温度及放电频率等对H2O2合成有显著影响。
When the concentration of O2 is below 30%, the concentration of O2, cooling water temperature and discharge frequency all have significant effects on H2O2 synthesis.
在氧气浓度低于30%时,使用自冷却双介质阻挡等离子体反应器,氧气浓度、冷却水温度及放电频率等对H2O2合成有显著影响。
When the concentration of O2 is below 30%, the concentration of O2, cooling water temperature and discharge frequency all have significant effects on H2O2 synthesis.
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