共查询到17条相似文献,搜索用时 125 毫秒
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合成了Er3Fe29-x-yCoxMy化合物(M=Cr, V, Ti, Mn, Ga, Nb )并用x射线衍射和磁测量等手段研究了它们的结构和磁性. 发现Fe基Er3(Fe,M)29化合物结晶成哑铃对Fe-Fe无序替代的Th2Ni17型结构(P63/mmc空间群)而不能形成Nd3(Fe,Ti)29型结构,因此其化学式也可以用Er2-n(Fe,M)17+2n (n=0.2)表示. 当Er3Fe29化合物中部分Fe原子被M原子所取代时,其居里温度均有一定程度的提高. 所有Er3(Fe,M)29化合物在室温均为易面型各向异性. 当Er3(Fe,M)29 (M=Cr, V)中的部分Fe原子被Co原子取代且Co原子数与Fe原子数达到一定比值时,得到一个单斜结构的新相. 磁测量表明Er3Fe19.5Co6V3.5在室温可能为单轴各向异性,在162K出现自旋重取向,其各向异性由易轴型变为易面型. 在5K下于难磁化方向磁化时观察到一个一级磁化过程(FOMP).
关键词:
稀土金属间化合物
晶体结构
磁晶各向异性 相似文献
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讨论了利用分子场近似结合中子衍射或X射线衍射的实验结果计算R2Fe17型稀土过渡族化合物中稀土磁矩与过渡族磁矩之间交换耦合常量的方法,并据此计算了R2Fe17-xAlx(R=Tb,Dy,Ho,Er,Gd,x=7或8)化合物中稀土磁矩与过渡族磁矩之间的交换耦合常量.计算结果与实验值符合较好.
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2Fe17-xAlx化合物')" href="#">R2Fe17-xAlx化合物
交换耦合常量 相似文献
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室温下在单晶Si中注入(0.6—1.5)%的C原子,利用高温退火固相外延了Si1-xCx合金,研究了不同注入剂量下Si1-xCx合金的形成及其特征.如果注入C原子的浓度小于0.6%,在850—950℃退火过程中,C原子容易与注入产生的损伤缺陷结合,难于形成Si1-xCx合金相.随注入C原子含量的增加,C原子几乎全部进入晶格位置形成Si1-xCx
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1-xCx合金')" href="#">Si1-xCx合金
离子注入
固相外延 相似文献
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通过x射线衍射及磁测量手段研究了Y2(Fe1-y-x,Coy,C rx)17化合物的结 构及居里温度.研究结果表明Y2(Fe1-y-x,Coy,Crx)17化合物具有六 角相的Th2Ni17型结构.随着x的增加,Y2(Fe
关键词:
2(Fe1-y-x')" href="#">Y2(Fe1-y-x
y')" href="#">Coy
x)1 7化合物')" href="#">Crx)1 7化合物
x射线衍射
居里温度 相似文献
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本文中研究了从Nd14Fe78B8过渡到Nd14Fe78C8时化合物的晶体结构与内禀磁性。指出轻稀土-Fe-C化合物形成P42/mnm型四方结构的结晶学条件在于适当的热处理温度。在Nd14Fe78B8-xCx系列中,随着C含量的增加,居里温度略有减少,饱和磁化强度σs出现一个平缓的峰值变化,室温下的剩磁σr、内禀矫顽力 iHe和磁晶各向异性场Ha都明显增大。含碳样品的各向异性行为与Nd-Fe-B相似,室温下易磁化方向沿e轴,低温下易轴各向异性转变成易锥型。自旋再取向温度随C的增加逐渐降低,但1.5K下的锥角有轻微的增大,这表明在Nd和Fe次晶格的各向异性之间存在着复杂的耦合。此外,适当富Nd的Nd-Fe-C化合物有强的各向异性。
关键词: 相似文献
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本文对Nd-Fe-Si三元系富铁区域相的结构和磁性进行了研究。结果表明,Nd-Fe-Si三元系富铁区域(Fe>40at%),除出现NdFe2Si2三元金属间化合物外(Si>20at%),同时只出现Nd2(Fe,Si)17赝二元金属间化合物,其中Si取代9d位的Fe原子,而不能形成类似于Nd2Fe14B的三元金属间化合物,Si取代Nd2Fe17中的9d位Fe原子后,使晶胞体积缩小;使饱和磁化强度减小;同时使Fe次晶格的铁磁相互作用增强,导致居里温度增高;还使得Fe次晶格的易面各向异性减弱,造成室温下各向异性场减小。
关键词: 相似文献
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The crystal and magnetic structures of Nd2Fe14Si3 at room temperature were refined by Rietveld analysis of neutron-powder-diffraction data. It was found that silicon atoms occupy preferentially both 18h and 18f of Th2Zn17-type structure with occupancies 0.36 and 0.14, respectively, The Fe-Fe bond-lengths computed with the refined crystallographic parameters have optimum values, as compared with those of Nd2Fe17 compounds, which can explain well why the Curie temperature rises strongly when the unit cell volume reduces with the substitution of silicon for iron in Nd2Fe17. 相似文献
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Using x-ray diffraction and magnetic measurements, we have studied the structural and magnetic properties of Dy2Co17-xMnx (x=0∽5) compounds with a rhombohedral Th2Zn17-type structure. With an increasing Mn concentration x, the unit-cell volume V was found to increase linearly. The Curie temperature Tc decreases linearly, and the saturation magnetization Ms at 5K first increases slightly for x<1, then decreases rapidly for x>1 with a further increase of Mn concentration x. In compounds for x=1~3, a spin reorientation was found. A magnetic diagram of the compounds is given. 相似文献
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155Gd Mössbauer spectroscopy measurements on Gd2T17C
x,with T=Fe,Co, Ni andx varying from 0.6 to 1.2
155Gd Mössbauer measurements were performed on Gd2T17C x with T=Fe, Co, and Ni andx varying from 0.6 to 1.2. The crystal structures of these compounds are either the Th2Zn17 or the Th2Ni17 structure type. There is only partial occupation of the site available to the carbon atoms, leading to several crystallographically non-equivalent gadolinium surroundings. These various Gd sites show different quadrupole interactions. Doping with carbon causes an increased Curie temperature for the Gd2Fe17C x compounds. The randomness of the occupation by carbon has been studied. 相似文献
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The crystallographic and magnetic structures of Nd2Fe17Nx(x = 2.5, 3.0, 5.5) at room temperature were refined by Rietveld analysis of neutron powder diffraction data. We found that Nd2Fe17Nx has a Th2Zn17 type structure (S.G. R3m) and the nitrogen atoms occupy both 9e and 18g sites simultaneously and at different rates. 相似文献
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A.G. Kuchin 《Journal of magnetism and magnetic materials》2010,322(15):2215-2218
Magnetic properties of the single-crystalline Lu2Fe17−xMnx compounds, in which x=0, 0.5, and 2, with the Th2Ni17-type crystal structure are reported. The Lu2Fe17−xMnx compounds with x=0 and 0.5 are ferromagnets at low temperatures and antiferromagnets at high temperatures. The compound with x=2 is always a ferromagnet. The easy-plane magnetic anisotropy in the Lu2Fe17−xMnx ferromagnets drastically weakens with increase in Mn content up to x=2. The temperature dependence of the first magnetic anisotropy constant was obtained and compared with the single-ion model prediction. 相似文献