microwave absorption meaning in English
微波吸收剂
Examples
- Microwave absorption of cb abs continuous conductivity medium
连续导电介质吸波性能研究 - Effects of special structure of fe nanowire arrays on property of microwave absorption
铁纳米线阵列组织结构对其吸波性能的影响 - The photo - action dielectric detecting apparatus for the silver halide materials is designed and set up in this paper on the basis of microwave absorption technique ( mwa ) from the point of view of the photo - action kinetics
利用微波吸收技术对卤化银感光材料的光电子特性和微观感光机理进行研究,能够获得光电子运动行为的规律及其对潜影形成过程的影响,对提高材料的感光性能就有重要的指导意义。 - Main conclusions drawn from the analyses of calculating results are as follows : ( 1 ) the microwave absorption of atmosphere gas have obvious attenuation at the wavelengths for cloud detection , thereinto , the water attenuation effect changes greatly , so the 94ghz cloud detecting radar should have water vapor attenuation correction scheme . ( 2 ) when 37ghz and 94ghz radars detect clouds , the difference between the atmosphere and cloud attenuation and the large variety of radar reflectivity conduce the intension of the radar backscatter signals change . ( 3 ) for the thin cloud layer and low water content of cloud , 37 - ghz radar backscatter signals are not as good as 94 - ghz radar , that is to say that the 94ghz radar has better capability in thin clouds detection
本工作得出如下结论: ( 1 )大气气体的微波吸收在测云波段产生明显的衰减,其中水汽衰减效应变化很大;即将上天的空间94ghz测云雷达必须有水汽衰减订正方案; ( 2 ) 37ghz和94ghz雷达测云,由于大气和云衰减不同和雷达反射率的很大差异,导致雷达回波信号强弱不同; ( 3 )对云层较薄、含水量较少的云,在不计雷达参数的情况下, 37ghz雷达回波信号不如94ghz测云雷达,也就是说94ghz对薄云有更强的探测能力;对云层较厚、含水量大的云,由于强衰减的作用, 94ghz雷达回波信号小于37ghz雷达; ( 4 )从大气衰减的不利因素方面考虑,空间94ghz雷达测高层薄云的效果最好;测低层薄云时需要考虑气体衰减订正;因浓厚云的强衰减作用,探测其中下部的能力大大减弱,不仅要进行衰减订正,而且要借助其他信息来反演整个云层的含水量垂直分布; ( 5 )为了获得从极薄到极浓厚云的垂直分布探测能力,未来测云雷达系统最好采用双波长甚至三波长(如94 、 37和13ghz ) 。 - On this condition , based on the experimental results gotten by the microwave absorption dielectric - spectrum measure technique , the photographic process at room temperature in agcl cubic microcrystals doped with k4fe ( cn ) 6 is simulated . through the optimization of simulating parameters , not only the cross - section and trap depth of the shallow electron trap induced by the dopant , but also the optimal doping amount is obtained
在此基础上,以微波吸收介电谱检测技术的实验结果为依据,对掺有k _ 4fe ( cn ) _ 6的agcl立方体微晶在室温下的曝光过程进行了模拟,通过调节模拟参数,不但计算出由掺杂剂引入的浅电子陷阱的俘获截面和陷阱深度,而且得到了这种掺杂乳剂的最佳掺杂浓度。