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- Ferromagnetic resonance in ferromagnetic/ antiferromagnetic bilayers[J]. 引用该论文 周岚;朱蜀梅.
- Recently, the study of ferromagnetic resonance (FMR) linewidth of magnetic films has received much interest. 最近,人们对铁磁共振线宽产生了极大的研究兴趣。
- The ferromagnetic resonance stabilized voltage supply and silicon-controlled rectifier are introduced briefly on early railway coach. 简述了铁路客车上早期应用的铁磁谐振稳压电源及可控硅整流元件稳压电源的使用情况及缺点。
- The effect of exchange anisotropy and stress anisotropy on properties of a ferromagnetic and antiferromagnetic bilayer films are investigated by ferromagnetic resonance method. 摘要采用铁磁共振方法,研究了交换各向异性和应力各向异性对铁磁/反铁磁双层薄膜性质的影响。
- J.H.Rong, G.H.Yun, B.Narsu and D.W.L.Sprung, Ferromagnetic resonance and stress anisotropy in a ferromagnetic/ antiferromagnetic bilayer, J.Appl.Phys., 2006, 100 (8): 083901. 荣建红;云国宏;应力各向异性对铁磁/反铁磁双层薄膜磁性质的影响;高压物理学报;20(3);265(2006).
- More precise analytic expressions for ferromagnetic resonance of single crystals are calculated, the approximation being carried to terms quadratic in the magneto-crystalline anisotropy field. 本文导出了更精确的单晶铁磁共振公式,其近似度达到磁晶各向异性场的平方项。
- Abstract: The effect of exchange anisotropy and stress anisotropy on properties of a ferromagnetic and antiferromagnetic bilayer films are investigated by ferromagnetic resonance method. 文章摘要: 采用铁磁共振方法,研究了交换各向异性和应力各向异性对铁磁/反铁磁双层薄膜性质的影响。
- Ferromagnetic resonance study of Ni nanowire arrays Ni纳米线阵列的铁磁共振研究
- Numerical Research of Ferromagnetic Resonance 铁磁谐振的数字研究
- Numerical simulation in ferromagnetic resonance 铁磁谐振的数值仿真
- ferromagnetic resonance over-voltage 铁磁谐振过电压
- ferromagnetic resonance overvoltage 铁磁谐振过电压
- ferromagnetic resonance spectrum 铁磁共振谱
- ferromagnetic resonance spectrometer 铁磁共振谱仪
- ferromagnetic resonance line width 铁磁共振线宽
- ferromagnetic resonance linewidth 铁磁共振线宽
- ferromagnetic resonance absorption 铁磁共振吸收
- Ferromagnetic Resonance Overvoltage Accidents and Prevention 南京供电公司铁磁谐振事故分析
- Produce Cause of Ferromagnetic Resonance and Prevention 铁磁谐振产生的原因与预防
- Resonance would occur again, but not so strong as before. 共振会再次发生,但不如先前那么强。
