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- yttrium iron garnet ferrite 石榴石铁氧体
- yttrium iron garnet single crystal device 钇铁石榴石单晶器件
- Keywords Amorphization;Yttrium iron garnet;Argon ions; 非晶化;钇铁石榴石;氩离子;
- Keywords yttrium iron garnet;substitution;lattice constants;formula; 钇铁石榴石;掺杂;晶格常数;公式;
- Preparation and Microwave Properties of Nanosize Bismuth-doped Yttrium Iron Garnet 纳米级铋-钇铁柘榴石粉末的合成与烧结块材的铁磁共振性质
- Quantum theory of the magneto-optical effect of Nd-substituted yttrium iron garnet 含钕石榴石磁光效应的量子理论
- Investigation on the diamagnetic Faraday rotation spectra in Pr-substituted yttrium iron garnet Pr:YIG晶体抗磁性Faraday转动谱的研究
- rare-earth iron garnet ferrite 稀土铁石榴石铁淦氧
- mixed yttrium iron garnet 混合型钇铁石榴石
- Preparation of Ce-substituted Yttrium Iron Garnets (Ce:YIG) 掺铈钇铁石榴石(Ce:YIG)的合成
- yttrium iron garnet 钇铁石榴石
- substituted yttrium iron garnet 取代型钇铁石榴石
- YIG (yttrium iron garnet) 钇铁石榴石材料
- YIG(yttrium iron garnet) 钇铁柘榴
- The basic conditions on preparation of the composite rare earth granets were expounded briefly, and the preparation of the Y and Gd doped composite garnet ferrite was studied. 扼要阐明了研制复合稀土石榴石型铁氧体材料的基本依据,着重对高温度稳定性和低损耗的稀土钇钆复合石榴石铁氧体的制备进行实验研探。
- A green to brown or black calcium - iron garnet,Ca3Fe2(SiO4)3. 钙铁榴石绿色到棕色或黑色的钙铁榴石Ca3Fe2(SiO4)
- Lead as impurity in RIG( rare earth iron garnet) Faraday rotators used for fibre optic communications systems. 于光纤通讯系统稀土铁石榴石法拉第旋转器中作为杂质的铅。
- Lead as impurity in RIG (rare earth iron garnet) Faraday rotators used for fibre optic communications systems. 用于光纤通讯系统(稀土铁石榴石)法拉第旋转器中作为杂质的铅;
- This paper reveals a novel magneto-optic recording characteristic of Indium Bismuth Calcium Vitriol Iron Garnet (In-BiCaVIG) crystals in high power microwave (HPM) field. 报道了铟铋钙钒铁石榴石 (In BiCaVIG)晶体在高功率微波场中的新颖磁光记录特性。
- A series of compound RE bismuth-substituted iron garnet (TbYbBi)_3Fe_5O_(12) bulk crystal were grown by the modified flux method using Bi_2O_3 as main flux. The crystal structure and composition were characterized by XRD and EDS, respectively. 以Bi_2O_3为主助熔剂改进的高温助熔剂法制备了一系列掺铋复合稀土铁石榴石(TbYbBi)_3Fe_5O_(12)块状晶体,用XRD,EDS等方法进行了结构和成份分析,确定生长的工艺条件和成份配比。