| 1. | Formation and applications of laser - excited surface plasma waves
光致表面等离子体波技术及其应用 |
| 2. | The characteristics of low frequency plasma wave propagation affected by parallel current
平行电流条件下等离子低频波动的特征 |
| 3. | As an advanced and high - precision sensor , surface plasma wave sensor ( spws ) can be applied widely
表面等离子体波传感器作为一种新型的、高精度的传感器有着广泛的应用前景。 |
| 4. | Now the catch : the wavelength of a plasma wave is only 30 microns , whereas the typical microwave wavelength is 10 centimeters
现在问题来了,电浆波的波长大约是30微米,而一般微波的波长大约是10公分。 |
| 5. | Through the interactions the moving bodies make the density of plasma around them disturb . this disturbance of density excites different kinds of plasma waves
当飞行体运动时,通过飞行体与等离子体的相互作用,使周围等离子体密度产生扰动。 |
| 6. | The dispersion curves and simulated dispersion relationship of longitudinal waves without the langmuir wave , the ion sound wave and the ion plasma wave are obtained
得到了除朗缪尔波、离子声波和离子等离子体波外其它纵波的色散曲线和拟合色散关系。 |
| 7. | According to the difference of the configuration and substrate of spws , two different surface plasma wave sensors exit , such as prism spws and optical fiber spws , which are studied in the paper
按照结构和载体的不同该种传感器分为两类:棱镜表面等离子体波传感器传感器和光纤表面等离子体波传感器,本文分别对它们进行了研究。 |
| 8. | So it is important for exploring the stealth vehicle to investigate the interactions and all kinds of plasma waves . the interaction between a body in space and its plasma environment is one of the basic problems in space plasma physics
这种密度扰动,在电离层中可以激发起各种等离子体波,研究这种相互作用及各种等离子体波,对探测涂有各种雷达波吸收材料的隐身飞行体有着重要的意义。 |
| 9. | Over the years , space physicists have come up with various ideas of greater complexity : perhaps , they reasoned , flares result from many different currents coming together or from a volume of turbulent plasma waves and the random electric fields associated with them
许多年来,太空物理学家提出了很多更复杂的想法:他们推论日焰也许源自许多不同电流的集合,或者来自于大量紊乱的电浆波与伴随其间随机无规的电场。 |
| 10. | In chap . 2 , the observational characteristics of the radio burst of the bastille event were discussed in detail . in chap . 3 , we described the associated foundational theories with the model of a magnetic - mirror loop , consisting of the flux duct , the magnetic reconnection , the plasma wave , the wave - wave interaction and so on . then in chap . 4 , using the model of magnetic - mirror loop to estimate quantitatively , we obtain the magnetic field strength , the number of solitons in a single fiber source , the volume of the source and the ducting parameters
对叠加于太阳射电型爆发上的精细结构,作出了观测特征分析,发现大多数纤维结构的观测特征在米波段和分米波段是相似的,由此提出它们可能源于相似的辐射机制,并采用磁镜环模型,首次对分米波段的纤维结构进行分析计算,推算了纤维辐射源区磁场强度大小及辐射源的空间尺度,且相关物理参量的推算量级与其他人的研究工作结果是一致的,从而对该爆发源区的物理环境及过程有了进一步深入的认识。 |
