铁磁共振 meaning in English
ferrimagnetism
ferro resonance
ferromagnetic resonance
ferroresonance
Examples
- Test method for ferrimagnetic resonance linewidth and gyromagnetic ratio of nonmetallic magnetic materials
非金属磁性材料铁磁共振行距和回磁比测试方法 - Moke and fmr studies were performed on epitaxial single crystalline fe ph . d thesis ; investigations of magnetic properties on magnetic thin , ultrathin and patterned films ultathin films on iii - v semiconductor inas substrate with thickness of 8 - 25monolayer ( ml ) . the major findings are listed below : ( 1 ) the in - plane magnetic crystalline anisotropy of film with 8 - 25 ml thick are four - fold anisotropy , and the in - plane unixial anisotropy of fe / inas films decreses faster with thickness than that in fe / gaas films . it could be explained that the stain relaxation of fe / inas films is also faster than that in fe / gaas films as indicated by leed
对于外延生长在inas衬底上、厚度为8 - 25ml的超薄fe单晶膜进行了铁磁共振和磁光研究,获得以下几点结果: ( 1 )膜厚在8 - 25ml之间时,薄膜面内的磁晶各向异性为四度对称各向异性,垂直单轴各向异性比同厚度的fe gaas系统小许多,而立方各向异性则比fe gaas系统更接近bcc结构的fe 。 - In this thesis , mainly by fmr , combined with moke and magnetic measurement , systematical studies have been made on the magnetic properties , especially magnetic anisotropy in epitaxial single crystalline fe ultathin films on gaas and inas substrates in polycrystalline thin films and in polycrystalline nife and nifeco patterned films of micron and submicron rectangular elements arrays
本论文以铁磁共振为主要研究手段,辅助以磁性和磁光测量,对外延于gaas及inas上的不同厚度的单晶fe超薄膜、不同厚度的nife多晶薄膜和电子束光刻的多晶nife和nifeco单层利三明治结构的微米及亚微米矩形单元阵列图形薄膜的磁性,特别是磁各向异性进行了较为系统的研究。 - Moke and fmr studies were performed on single crystalline fe ultathin films epitaxially grown on iii - v semiconductor gaas substrate with thickness 4 . 1 - 33 monolayer ( ml ) . a theoretical mode for fitting fmr experimental data was established . the results demonstrated the structures and reproduced the evolution of the magnetic properties of ultrathin films with various thickness from the state of superparamagnetic nano - cluster through coexistence of two magnetic phases to continuous film , especially the change of magnetic crystalline anisotropy from unixial to cubic
1 - 33原子层厚度( monolayer ,简称ml )的fe单晶超薄膜进行了铁磁共振( fmr )和磁光研究,建立了理论模型对铁磁共振实验结果进行了模拟,重现了不同厚度的超薄膜,从纳米团簇到两相共存的过度阶段直至连续薄膜结构与磁性的变化,特别是磁各向异性从单轴各向异性向立方各向异性转变的演化过程。