走近纳米科技

 纳米科技于20世纪70年代兴起,进入21世纪越来越被大家耳熟。纳米科技在促进科技进步,提高社会文明程度,改善人类生存质量,更新对物质世界的认知及观念上扮演了举足轻重的角色。纳米是长度单位。一纳米为一米的十亿分之一,如果你的拇指指甲盖宽14毫米,这个比例就相当于拇指指甲盖宽度与地球直径间的比例。纳米科技所接触、研究、开发的是100纳米～0.1纳米范围内物质的性质和应用。一个分子或一个原子大小的数量级大致在10纳米。因此,纳米科技也可以说是在分子水平上观察、分析、研究物质的物理、化学性质并加以开发利用。     

调节层状分子基磁体[NO2BzQ1][FeRuxFe（1-x）（ox）3]的合成与磁性研究

合成了组成不同的一类新的层状分子基磁体[NO2BzQ1][FeRuxFe(1-x)(ox)3]，并测定了它们的变温磁化率，结果显示，磁体磁性随着Ru^Ⅲ／Fe^Ⅲ比例的不同而发生变化。     

古罗马用铅造输水道

罗马共和国和罗马帝国时代是全球铅生产的第一个高峰期,此时,古罗马对铅的应用也达到了顶峰。罗马文化直接继承了古希腊文化和伊特鲁里亚文化,其建筑成就达到了欧洲奴隶制时代建筑的最高峰。工程奇迹之一是输水道工程,这是古罗马为供应城市生活用水而建造的送水渡槽。公元前3 1 2年建造了一条长1 6公里的地下输水道,公元前2世纪时又开始架设地上引水道,第一条地上引水道全长达86 6公里。至公元2 2 6年,罗马先后修建了1 1条大型输水道,有些水道高达49米,这些输水道都修建得十分豪华,有些输水道由铅管或陶器和隧道组成。据报道,仅建造里昂的一…     

Spin-Polarized Tunnelling Magnetoresistance Effects in La0.833K0.167MnO3／SrTiO3 Polycrystalline Perovskite Manganites

A sample of La0.833K0.167MnO3-SrTiO3 (LKMO/STO) is fabricated by the sol-gel method. The microstructure,magnetic and transportation properties have been studied. X-ray diffraction patterns indicate that the structure of LKMO/STO is a homogeneous solid solution phase. The resistivity of LKMO/STO shows the insulator behaviour, which is different from La0.833K0.167MnO3 (LKMO) whose resistivity shows metal-insulator transition with decreasing temperature. The low-field (moH = 0.02 T) magnetoresistance decreases from 11% to 0.2% with the increasing temperature from 4 K‘to 220K for the LKMO/STO sample. The magnitude of magnetoresistance in a strong field (μoH = 5.5 T) almost increases linearly with decreasing temperature and reaches the maximum of 65% at the low temperature of 4.2K, which is much higher than that oE LKMO (40%). The enhanced low-field magnetoresistance effects are quantitatively explained by the spin-polarized tunnelling at grain boundaries.     

Magnetic and Crystalline Microstructures of Fe-Pt-B Nanocomposite Ribbons

We investigate magnetic and crystalline microstructures of melt-spun (Fe0.675Pt0.325)100-xBx (x=12, 14, 16, 18,20) nanocomposite ribbons after optimal thermal treatment using a magnetic force microscope. The magnetic microstructures are characterized by darker spots adjacent to brighter ones in a sub-micro scale and in random distribution. It is found that the strength of the exchange coupling interaction between the crystals in the 10-100 nm scale, implied by the maximum value (δM)max of the Henkel plot, could be roughly described by the ratio of the average width of the magnetic spots w^- to the average crystal size D^- for the ribbons. Moreover, we find that the intrinsic coercivity jHc of the ribbons is sensitive to their crystal sizes, and the smaller D^-, the higher jHc. Finally, by using roughness analysis, the curve of the root mean square values (δФ)rms of the phase shift of the magnetic force images versus the boron content x is obtained, which is qualitatively consistent with that of the magnetization σ12 kOe of the ribbons versus x.     

具有室温巨隧道磁电阻效应与高自旋极化率的新材料

回顾了隧道磁电阻效应发展简史及其应用,报道了锌铁氧体/氧化铁二相纳米复合材料在室温具有巨磁隧道电阻效应的实验结果,该实验结果表明锌铁氧体是具有高自旋极化率的一类新材料,值得进一步开展相关的研究工作.     

用Josephson结电子模拟器测量磁通量子2e/h

介绍用Josephson结电子模拟器在政党温度下，模拟测量磁通量子2e/h，用模拟器来研究Josephosn结的特性。该实验可作为普通物理实验中课题设计实验的一个内容。     

纳米晶软磁合金中的结构对技术磁性的影响——Ⅱ.磁弹耦合作用

对磁弹耦合在决定纳米晶软磁合金宏观磁性中的作用进行了探讨,高场磁化规律以及正电子湮没测量表明:对Fe_73.5Cu₁Nb₃Si_13.5B₉合金,准位错偶极子造成的应力场对畴壁的钉扎效应是造成纳米晶软磁合金矫顽力的重要原因;结构缺陷造成的应力场与磁致伸缩的耦合作用对纳米晶软磁性能有重要的影响.在结构各向异性和磁弹耦合能共同作用下可解释纳米晶合金表现出最佳软磁性能.