| 1. | Study on electron temperature of pulsed discharge plasma
大气脉冲放电等离子体电子温度的研究 |
| 2. | Time - resolved diagnosing of the electron temperature of laser - produced aluminum plasma
激光等离子体电子温度的时间分辨诊断 |
| 3. | The spectrum can be fitted by maxwellian distribution , the hot electron temperature given by the slope is 67kev
用maxwellian分布拟合能谱,超热电子温度为67kev 。 |
| 4. | The spectrum can be fitted by maxwellian distribution , the hot electron temperature given by the slope is 85kev
能谱用maxwellian分布拟合,得到超熟电子温度为85kev 。 |
| 5. | The increase of luminous efficiency is a result of the decreased cell voltage and electron temperature in discharge
当气体放电于较低电压的情况下,电子温度较低并可以提高发光要率。 |
| 6. | As our best known , this is the first experimental measurement of so high hot electron temperature at moderated intensity , pre - pulse free condition
据我们所知,这是第一次报道在10 ~ ( 16 ) w cm ~ 2 、无预脉冲条件下,实验测量到这么高的超热电子温度。 |
| 7. | The variation with the time of the mean density of all particles , electron temperature and their space distributions in the discharge cell are calculated in this paper
使用eme模型模拟计算新型荫罩式结构和传统的表面放电式结构,对这两种结构的模拟结果进行比较分析。 |
| 8. | From the scaling law about hot electron temperature given by vh model , the hot electron measured by experiment was reasonable , the temperature was higher than the temperature given by resonant absorption scaling law
真空吸收是产生高能超热电子的主导过程,从真空吸收给出的超热电子温度定标率来看,实验中测量得到的超热电子温度是合理的。 |
| 9. | A co2 laser with the optimized resonator is made and to be proved by experiments . this dissertation focus on the following problems : the kinetics process of the cvl and the co2 laser , the rate equations for the laser level population , electron temperature and electron density
本文的重点是:阐述清楚铜蒸汽激光和二氧化碳激光的动力学过程,定量描述激光能级的粒子数速率方程、电子温度和电子密度等速率方程 |
| 10. | The floating potential , electron temperature , ion density and flux density are all varied with the system parameters . the identical parameters we measured in our system is as follows , the electron temperature is from 1 to 4ev , ion density is among the magnitudes of i09 - io
文中重点研究了ecr等离子体的特性,并对我们的系统进行了langmuir探针和faraday筒测试,研究了等离子体参数随气压、微波功率、偏压、气体种类等的变化。 |
