1) microwave sulfur plasma
微波硫等离子体
2) microwave plasma
微波等离子体
1.
V_(0.98)W_(0.02)O_(2-x)N_y thin films synthesized by microwave plasma;
微波等离子体制备氮杂二氧化钨钒薄膜
2.
Study of gel form intelligent cotton knitgoods with polymer grafting initiated by microwave plasma;
微波等离子体引发接枝凝胶型智能棉针织品
3.
Methane conversion into acetylene by synergism of transition metal catalyst and microwave plasma;
过渡金属与微波等离子体协同催化甲烷制乙炔
3) microwave plasmas
微波等离子体
1.
Surface Modification of Fluorinated Polymers by Microwave Plasmas;
用微波等离子体改性氟树脂表面
2.
Under striking power,the temperature of microwave plasmas interspace with different reaction pressure was measured by the intertwined thermocouple.
采用绞状缠绕式的热电偶计工作在打火功率以下时,测量了不同反应压强下的微波等离子体空间温度。
4) Microwave plasma torch
微波等离子体炬
1.
The Effects of Some Concomitant Elements on Electrothermal Vaporation Microwave Plasma Torch Atomic Emission Spectrometry (MPT AES);
电热蒸发进样微波等离子体炬原子发射光谱法中共存元素的影响
2.
Microwave plasma torch atomic emission spectrometry(MPT-AES) was used to determine the content of calcium and zinc in kelp after being digested.
分别使用常规消解方法与微波消解方法处理海带样品,采用微波等离子体炬原子发射光谱法(MPT-AES)测定海带中钙和锌的含量。
3.
Using microwave plasma torch(MPT)as excitation light source, argon as support gas, the sample solution was introduced into a pneumatic atomizer system, and the method of determining copper, chromium, manganese and aluminum in hydrogenation catalyst by microwave plasma torch atomic emission spectrometry (MPT-AES) was studied.
用微波等离子体炬(MPT)为激发光源,氩气为等离子体工作气体,用气动雾化进样,研究了微波等离子体炬原子发射光谱法(MPT-AES)测定加氢催化剂中的Cu、Cr、Mn、Al四种金属元素的方法。
5) Carbon dioxide microwave plasma
CO_2微波等离子体
6) Microwave ECR plasma
微波ECR等离子体
1.
This system is applied to the measurement of microwave ECR plasma inner parameters and proved to work well.
将该系统应用于微波ECR等离子体参数的测定,经实验测试效果较好。
2.
With these advantages, Microwave ECR plasma finds number of applications in the areas of etching technologies, thin film deposition and plasma source.
微波ECR等离子体还具有无内极放电和放电离子低溅射率的优点,正是由于这些优点,使其在刻蚀技术、薄膜制备技术和离子源等方面得到了广泛应用。
补充资料:电感耦合微波等离子体焰炬
分子式:
CAS号:
性质: 由微波感生、用于发射光谱分析的等离子体光源。将发生等离子体焰炬的石英管,置于微波谐振腔中,以2450MHz的微波激发。产生的光谱简单,背景低,耗气与耗电量小。
CAS号:
性质: 由微波感生、用于发射光谱分析的等离子体光源。将发生等离子体焰炬的石英管,置于微波谐振腔中,以2450MHz的微波激发。产生的光谱简单,背景低,耗气与耗电量小。
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