2) Capacitive gap coupled transmission line
电容间隙耦合传输线
3) interlayer coupling
层间耦合
1.
Cu doping effect on the interlayer coupling and negative MR of Fe/Si multilayers;
Cu掺杂对Fe/Si多层膜的层间耦合和负磁电阻效应的影响
2.
Study of interlayer coupling and magnetic properties in Fe-Ni/Cu multilayers;
Fe-Ni/Cu磁性多层膜中层间耦合和磁性的研究
3.
Magnetic properties were evaluated by VSM and spin valve magnetoresistance was investigated by a four-probe method to study the interlayer coupling of the two magnetic layers.
研究结果表明 ,层间耦合效应不仅与非磁性中间层的厚度相关 ,而且与中间层材料的特性相关。
4) Coupling effects
阱间耦合
5) spatial coupling
空间耦合
1.
Analysis of The Spatial Coupling of Natural Resource And Economy in Small Upland Drainage Area ——Taking Small Upland Drainage Area of Anji Country of Chekiang Province as Object The spatial coupling of natural resource and economy was studied in small upland drainage area of Anji country.
围绕自然资源与经济发展相互关系这一主题,选取浙江省安吉县小流域为研究区域,探讨了山区小流域自然资源与经济发展之间的空间耦合关系。
6) interchain coupling
链间耦合
1.
Effect of interchain coupling on the inversed polarization of a biexciton in conjugated polymers;
链间耦合对聚合物中双激子态反向极化的影响
2.
The effects of interchain coupling on the quantum lattice fluctuation and space structure stability in polyacetylene are considered within the Su-Schriffer-Heeger model Hamiltonian plus the interchain coupling.
在Su-Schrieffer-Heeger(SSH)哈密顿量的基础上,加上链间电荷转移项,考虑链间耦合对聚乙炔中量子晶格涨落和空间结构稳定性的影响。
3.
In an interchain coupling, the Coulomb interaction and hopping interaction at electrons of the same sites of neighboring chains and the next nearest neighboring sites of neighboring chains are considered An effect of interchain coupling on distribution of charge density and spin density waves is studie
在链间耦合中同时计入库仑相互作用和相邻链相同格点间电子跳跃积分和相邻链次近邻格点间电子跳跃积分,研究了链间耦合对电荷密度和自旋密度分布的影响。
补充资料:电容耦合高频等离子体焰炬
分子式:
CAS号:
性质:以小于300MHz射频为辐射频率,工作频率在10~100MHz的一种电容耦合等离子体光源。该光源由三极管振荡器供给能量,并传到电容器尖形电极上,在尖端产生高场强。当其周围气体电离时,便发生放电火炬,且维持不熄。待测试液通过载气雾化后,吸喷到放电区进行激发。作为原子发射光谱分析光源。
CAS号:
性质:以小于300MHz射频为辐射频率,工作频率在10~100MHz的一种电容耦合等离子体光源。该光源由三极管振荡器供给能量,并传到电容器尖形电极上,在尖端产生高场强。当其周围气体电离时,便发生放电火炬,且维持不熄。待测试液通过载气雾化后,吸喷到放电区进行激发。作为原子发射光谱分析光源。
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