1) core-mantle electromagnetic coupling
核幔电磁耦合
2) core-mantle coupling
核幔耦合
1.
Tentative researche s demonstrate that: core-mantle coupling induced fluctuations in crustal deform ation, geophysical observations, are important modulations to back-ground anoma ly variations on years to decad.
初步分析表明深部核幔耦合作用引起的地壳形变、地球物理场十年尺度波动,是数年至十年尺度地震场兆波动性变化的重要调制因素之一;源于断层脆韧转换带(过渡层)的静寂地震慢地震缓慢破裂过程,是数天至数月尺度地震短期异常变化产生的重要原因;源于脆韧转换层上部或弹脆性层薄弱部分慢地震过程所辐射出来的低频前驱波(慢地震波),是目前已发现的可重复出现的短临前兆信号,具有数小时至7天左右的地震短临预报指标意义。
2.
Three possible core-mantle coupling mechanisms, topographic coupling, electromagnetic coupling and gravitational coupling, have been proposed, but no one was thoroughly, verified or ruled out.
已提出了三种可能的核幔耦合机理即核幔地形耦合、电磁耦合、引力耦合,但至今没有一个被完全证实或排除。
3) electromagnetic coupling
电磁耦合
1.
Investigation on Electromagnetic Coupling & Interference of Electric System;
电子系统的电磁耦合干扰研究
2.
Study on wireless multi-channel data transmission system based on electromagnetic coupling
基于电磁耦合的无线多路数据传输系统
4) magnetoelectric coupling
磁电耦合
1.
The magnetoelectric coupling effect on the spin correlation for the ferroelectromagnetic system;
磁电耦合对于铁电磁系统的磁性关联的影响
2.
the magnetoelectric coupling effect.
磁电层状复合结构是层状铁电相与铁磁相的复合,该层状结构同时具有铁电性和铁磁性,呈现出磁电耦合效应。
3.
Ferroelectric/Ferromagnetic composite is a novel functional material, which possesses not only ferroelectric and ferromagnetic properties but also magnetoelectric coupling effect, so that it has very broad range potential applications.
铁电/铁磁复合材料是一种新型的功能材料,不仅集合了铁电性和铁磁性的优点,而且具有磁电耦合效应,因此具有十分广泛的应用前景。
5) EM coupling
电磁耦合
1.
Time characteristics of EM coupling in induced polarization;
激发极化观测中电磁耦合的时间特性
6) crust-mantle coupling
壳幔耦合
1.
The study of the crust-mantle coupling dynamics may take further significance to ascertain the global tectonics.
这种壳幔耦合动力行为的研究对探求全球构造原理有着深远的意义。
补充资料:核爆炸电磁脉冲探测(见核爆炸探测)
核爆炸电磁脉冲探测(见核爆炸探测)
nuclear explosion electromagnetic pulse detection
hebaozha dianci maiehong tQnCe核爆炸电磁脉冲探测(nuelear。xpl。-Sion electromagnetie Pulse deteetion)见核爆炸探测。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条