对交流电流引线的趋肤效应进行了分析和讨论。
Finally, the skin effects of AC current leads are analyzed and discussed.
所述有源放大器补偿电阻损耗、高频趋肤效应和高频辐射。
The active amplifiers compensate ohmic losses, high frequency skin effects, and high frequency radiation.
趋肤效应是指在高频下仅通过导体的外表面进行传导的电流。
Skin effect is current conduction along only the outer surface of a conductor at high frequencies.
根据微波导通的趋肤效应表明,表面镀层厚度与微波的趋肤深度是相关的。
According to the surface effect of microwave conducting, surface coating thickness is correlative with microwave surface effect depth.
高频时,信号在导线表面传输(趋肤效应),尺寸越小的导线产生的损耗越大。
High frequency, the signal transmission cable surface (skin effect), the smaller size of the Traverse greater loss.
本文在普通物理范围内,得出了趋肤效应的严格理论解释,并探讨了产生趋肤效应的物理过程。
This paper discusses the physical process that causes the skin effect and offers a theoretically strict interpretation of skin effect within the scope of general physics.
结果表明,与传统的处理方法(包括三因子反滤波和趋肤效应提升)相比,该方法可大大地改进感应测井的精度。
The processing result indicates the least square inverse filtering can produce an improved resistivity profile which resembles the "true"profile more closel…
本文中对任意费米面求出了金属在红外波段的表面电阻,所得表达式适用于各种性质的趋肤效应(正常、反常和中间情况)。
Surface impedance of metals in infrared region is calculated for an arbitrary Fermi surface. Expressions applicable to all cases of skin-effect (normal, anomalous and intermediate) are obtained.
通过对该方程的进一步分析后我们发现,在超导体中不仅存在电磁波动解,而且还存在类似于常规导体的电磁波趋肤效应,其趋肤尺度明显地依赖于电磁波的波动频率。
Through the analysis of this wave equation, we find there exists the skin effect in the superconductor, of which the skin depth is dependent on the wave frequency.
通过对该方程的进一步分析后我们发现,在超导体中不仅存在电磁波动解,而且还存在类似于常规导体的电磁波趋肤效应,其趋肤尺度明显地依赖于电磁波的波动频率。
Through the analysis of this wave equation, we find there exists the skin effect in the superconductor, of which the skin depth is dependent on the wave frequency.
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