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.
新的探测器在建造时使用了改进的电子设备和电池组,并且添加了新的的雷达高度计,这是一种发射微波测定两极冰层厚度的装置。
The new probe was built using improved electronics and batteries, and an extra radar altimeter, a device that will fire microwaves at the arctic and Antarctic ice to reveal its thickness.
但是,PIN探测器厚度有限,因而采用并联方法。
But, PIN detector thickness is limited, thus we used the parallel method.
计算结果表明,叠层探测器的响应和能量分辨率与中子能量、聚乙烯以及铅衰减层厚度有关。
The calculated results show that both energy response and resolution of the detector are related to neutron energy and the thicknesses of both polyethylene and Pb.
计算结果表明:1叠层探测器能量响应与中子能量、聚乙烯和铅的厚度有关。
The results show the followings: 1 the energy response of the detector combination is related to the neutron energy, and the thickness of the polyethylene and Pb.
结果探测器死层厚度和冷指尺寸调节前与调节后相比,理论计算与实测效率相对偏差的平均值由5.301%提高到3.937%。
Results It is proved that the average relative differences calculated and actual - measured before and after being adjusted have been increased from 5.301% to 3.937%.
钙钛矿涂层的厚度大概有300纳米,大约相当于一个单细菌的宽度,而一般的光电探测器中硅胶层的厚度是100微米,或者说是钙钛矿涂层的330多倍。
The perovskite coating is roughly 300 nanometers, about the width of a single bacterium, while the silicon layer in common photodetectors is 100 micrometers, or more than 330 times as thick.
钙钛矿涂层的厚度大概有300纳米,大约相当于一个单细菌的宽度,而一般的光电探测器中硅胶层的厚度是100微米,或者说是钙钛矿涂层的330多倍。
The perovskite coating is roughly 300 nanometers, about the width of a single bacterium, while the silicon layer in common photodetectors is 100 micrometers, or more than 330 times as thick.
应用推荐