这减少了设备的厚度和电压损耗,从而降低材料的质量要求和探测器的材料成本。
This decreases the device thickness and depletion voltage and consequently reduces material quality requirements and cost of the detector material.
通过分析EPS水泥的内部结构来研究其微波损耗机理,分析了EPS和炭黑填充率、EPS颗粒直径以及试样厚度对材料吸波性能的影响。
The electromagnetic loss mechanism was analyzed and influences of EPS and CB filling ratios, EPS diameter and sample thickness were also analyzed in the paper.
通过控制聚酰亚胺膜的厚度,可以对银空芯波导在特定的波长处有降低损耗的作用。
By controlling the thickness of coated polyimide, the loss of the hollow waveguide can be reduced at different wavelength.
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