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以Gd2O3、K2CO3、MoO3为原料,采用高温熔盐法,合成了一个含钾的稀土钼酸盐KGd(MoO4)2。通过X射线单晶衍射法测定了它在室温下的晶体结构,并测定了它的光学性质。结构分析表明它属于三斜晶系,空间群为P1,a=0.52923(6)nm,b=0.69210(6)nm,c=1.06889(7)nm,α=75.79(8)°,β=76.79(5)°,γ=67.60(4)°,Z=2,R1(alldata)=0.0258。结构中的K和Gd原子位于各自的晶体学位置,不存在调制结构的现象。此外,我们用得到的晶体学数据,通过密度泛函理论研究了化合物的能带结构、态密度、介电常数,其结果和实验数据相吻合。 相似文献
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Magnetic tunnel junctions (MTJs) with structures of Ta(5 nm)/Cu(30nm)/Ta(5 nm)/Ni79Fe21 (5 nm)/Ir22Mn78 (12 nm)/Co62Fe20B18 (4 nm)/MgO(d)/Al(0.8 nm)-oxide/Co62Fe20B18 (6 nm)/Cu(30 nm)/Ta(5 nm) on a thermally oxidized Si wafer substrate were fabricated by magnetron sputtering and photolithographic patterning method. The tunnel magnetoresistance (TMR) and the bias dependence of TMR at room temperature for the MTJs with different thickness d of MgO are investigated. TMR values of over 50% as high as those of the MTJs with pure Al-O barrier and the TMR-voltage curve asymmetries, which vary with the increase of d, are observed in the MTJs with hybrid barriers after annealing at 265℃ for an hour. The dependences of TMR, resistance and coercivity of the MTJs with composite barriers on temperature are also investigated. 相似文献
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就如何在4英寸热氧化硅衬底上沉积高质量的磁性隧道结纳米多层薄膜材料和如何利用光刻方法微加工制备均匀性较好的磁性隧道结方面做了初步研究,并对磁性隧 道结的磁电性质及其工作特性进行了初步测量和讨论.利用现有的光刻设备和工艺条 件在4英寸热氧化硅衬底上直接制备出的磁性隧道结,其结电阻与面积的积 矢的绝对误差在10% 以内,隧穿磁电阻的绝对误差在7% 以内,样品的磁性隧道结性质具有较好的均匀性和一致性,可以满足研制磁随机存储器存储单元演示器件的基本要求.
关键词:
磁性隧道结
隧穿磁电阻
磁随机存储器
4英寸热氧化硅衬底 相似文献
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在B3LYP/6-311+G**水平上,研究了包含平面五配位碳(ppC)和平面四配位碳(ptC)的化合物CB5C2H2(C3B2)nC2H2CB5(n=1-5)的结构、能隙、IR光谱、电子光谱、Wiberg键指数以及芳香性.计算结果表明,这五种化合物的能量最低结构均位于势能面的极小值点,HOMO-LUMO能隙在0.5到1.2eV之间,第一电子的激发能在1780到2910nm之间,且与分子尺寸呈现非单调变化趋势.Wiberg键指数和键长表明这五种化合物的能量最低结构均包含平面五配位和平面四配位碳.C3B2单元和右侧CB5单元中三元环中心的核独立化学位移(NICS(0))值均为负值,而左侧CB5单元中的三元环中心的NICS(0)值中两个为正值,另两个为负值,NICS(1)值与NICS(0)值也一致,因此电子的局域离域对结构的稳定是很重要的. 相似文献
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High microwave absorption performances for single-walled carbon nanotube–epoxy composites with ultra-low loadings 总被引:1,自引:0,他引:1 下载免费PDF全文
Microwave-absorbing polymeric composites based on single-walled carbon nanotubes(SWNTs) are fabricated via a simple yet versatile method, and these SWNT–epoxy composites exhibit very impressive microwave absorption performances in a range of 2 GHz–18 GHz. For instance, a maximum absorbing value as high as 28 dB can be achieved for each of these SWNT–epoxy composites(1.3-mm thickness) with only 1 wt% loading of SWNTs, and about 4.8 GHz bandwidth,corresponding to a microwave absorption performance higher than 10 dB, is obtained. Furthermore, such low and appropriate loadings of SWNTs also enhance the mechanical strength of the composite. It is suggested that these remarkable results are mainly attributable to the excellent intrinsic properties of SWNTs and their homogeneous dispersion state in the polymer matrix. 相似文献
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