1) exchange coupling
交换耦合
1.
Study of exchange coupling EM wave absorption material;
双层交换耦合电波吸收材料的研究
2.
A study of exchange coupling effects of nanocomposite Pr_2Fe_(14)B/α-Fe permanent ribbons;
纳米复合Pr_2Fe_(14)B/α-Fe永磁材料的交换耦合作用研究
3.
Based on the symmetric fanning mechanism of the sphere chain model,a systematic study on the hysteresis loops for hexagonal arrays of segmented composite magnetic nanowires fabricated by electrochemical deposition is performed by taking into account the interfacial exchange coupling effect between the segments.
基于球链模型的对称扇形转动机理,考虑了段间的界面交换耦合作用,对利用电化学沉积方法制备的段化复合磁性纳米线六角阵列的磁滞回线进行了系统的研究,提出了矫顽力随复合段数m的变化规律。
2) exchange-coupling
交换耦合
1.
Synthesis and exchange-coupling interaction in nanocomposite SrFe_(12)O_(19)γ-Fe_2O_3 permanent ferrites;
纳米晶复合SrFe_(12)O_(19)γ-Fe_2O_3永磁铁氧体的制备和交换耦合作用
2.
Fabrication of TbFe/Fe exchange-coupling magnetostrictive multilayers;
TbFe/Fe交换耦合磁致伸缩多层膜的制备
3.
The exchange-coupling effect of GdFeCo/TbFeCo double-layered films is the most important factor for center-aperture-detection type magnetic super resolution.
稀土 过渡族合金GdFeCo/TbFeCo双层膜交换耦合性能的控制是实现中心孔探测型磁超分辨的关键。
3) magnetic exchange coupling
磁交换耦合
4) exchange coupling field
交换耦合场
1.
Influences of surfactant Bi on the exchange coupling field and microstructure of spin-valve multilayers;
表面活性剂Bi对自旋阀多层膜交换耦合场的影响及其微结构分析
2.
Experimental results show that Cu atoms can float out or segregate to the NiFe/FeMn interface for Ta/NiFe/Cu/NiFe/FeMn/Ta spin-valve multilayers, which results in a fall of the exchange coupling field (Hex) of NiFe/FeMn in the spin-valve multilayers.
对于Ta/NiFe/Cu/NiFe/FeMn/Ta自旋阀多层膜,Cu原子偏聚到NiFe/FeMn界面将导致自旋阀多层膜中NiFe/FeMn的交换耦合场Hex下降。
5) negative exchange coupling
负交换耦合
1.
It was found that there were negative exchange couplings between atoms in chromium chalcogenides.
用MS Xα方法研究了过渡族硫属化物CrTe的电子结构与磁性,计算结果表明:原子之间存在负交换耦合,且随着外界压强的增加,负交换耦合增强,从而导致CrTe的铁磁性减弱。
2.
It is found that there are negative exchange couplings between atoms in Co1-xMnx alloys.
用MS-Xα方法研究了Co_(1-x)Mn_x合金(bcc结构)的电子结构与磁性,计算结果表明:原子之间存在负交换耦合,且随着Mn含量的增加,负交换耦合增强,从而导致bcc结构的Co_(1-x)Mn_x合金的铁磁性减弱,计算结果与实验符合得较好。
6) hyper-exchange interaction
超交换耦合
补充资料:单官能交换基离子交换树脂
分子式:
CAS号:
性质:是指在离子交换树脂交联结构或非交联结构本体上仅含有单一种类交换基团的各种离子交换树脂的总称。如通常使用的磺酸型阳树脂、羧酸型阳树脂、季铵型阴树脂等。
CAS号:
性质:是指在离子交换树脂交联结构或非交联结构本体上仅含有单一种类交换基团的各种离子交换树脂的总称。如通常使用的磺酸型阳树脂、羧酸型阳树脂、季铵型阴树脂等。
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