1) electronic and magnetic phase transition
电、磁相变
2) relativistic transform theory of electromagnetic field
相对论电磁变换
3) relativistic transformations of electric and magnetic fields
电磁场的相对论变换
5) magnetic phase transition
磁相变
1.
Effect of C on the microstructure and magnetic phase transition of Gd_5SiGe_3 magnetic refrigation material;
C对Gd_5SiGe_3磁致冷材料组织结构和磁相变的影响
2.
Spontaneous and field-induced magnetic phase transitions in the intermetallic compounds SmMn_2Ge_2 and GdMn_2Ge_2;
SmMn_2Ge_2和GdMn_2Ge_2中的自发磁相变和场诱导的磁相变
3.
Study on the magnetic entropy change and magnetic phase transition of NaZn_(13)-type LaFe_(13-x)Al_xC_y compounds;
NaZn_(13)型结构LaFe_(13-x)Al_xC_y化合物的磁熵变与磁相变的研究
6) magnetic transition
磁相变
1.
The magnetic behavior of the samples undergoes a special anti ferromagnetism like magnetic transition from superparamagnetism to the coexistence of ferromagnetism and superparamagnetism.
5K)的温度范围内 ,样品经历了由超顺磁性向超顺磁性、铁磁性共存的混合态 -类反铁磁性的特殊磁相变过程 ,由此提出该颗粒膜中Fe颗粒的尺度有大小两种类
2.
Due to their special crystalline structure and magnetic interaction, the rare earth-transition intermetallic compounds GdMn2Ge2 and RMn6Sn6 (R=Tb, Dy, Ho) display abundant magnetic properties and magnetic transitions.
由于特殊的晶体结构和磁相互作用性质,稀土-过渡族金属间化合物GdMn_2Ge_2及RMn_6Sn_6(R=Tb、Dy、Ho)表现出丰富的磁性和磁相变。
3.
5 K,it is found that the grain size of all samples increases with the growing sintering temperature,which is favorable to the magnetic transition from antiferromagnetic state to ferromagnetic state.
02O3,以研究烧结温度对样品颗粒尺寸以及磁相变的影响。
补充资料:铁电感应相变
分子式:
CAS号:
性质:在一定温度下电场和压力等外界因素导致非铁电相向铁电相的转变。相变过程中伴有显著的体积变化和极化强度的变化,可用于制造机电换能和储能材料中,也可用于制作微位移仪等器件中。
CAS号:
性质:在一定温度下电场和压力等外界因素导致非铁电相向铁电相的转变。相变过程中伴有显著的体积变化和极化强度的变化,可用于制造机电换能和储能材料中,也可用于制作微位移仪等器件中。
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