Cr掺杂ZnO纳米线电子性质和磁性质

本文采用第一性原理密度泛函理论系统的研究了Cr原子单掺杂和双掺杂两种尺寸ZnO纳米线的电子性质和磁性质.所有掺杂纳米线的形成能都比纯纳米线的形成能低,表明掺杂增强了纳米线的稳定性.研究发现Cr原子趋于替代纳米线表面的Zn原子.所有掺杂纳米线都显示了金属性.纳米线的总磁矩主要来源于Cr原子3d轨道的贡献.由于杂化,相邻的O原子和Zn原子也产生了少量自旋.在超原胞内,Cr和O原子磁矩反平行排列,表明它们之间是反铁磁耦合.表面双掺杂纳米线铁磁态能量比反铁磁态能量低149 meV,表明Cr掺杂ZnO纳米线可能获得室温铁磁性.     

Mn掺杂ZnO纳米线磁性质的第一性原理研究

本文采用第一性原理方法系统研究了Mn原子单掺杂和双掺杂ZnO纳米线的稳定性和磁性质.所有掺杂纳米线的束缚能都为负值,表明掺杂增强了纳米线的稳定性.表面掺杂纳米线显示了直接带隙半导体特性,而中间掺杂纳米线显示了间接带隙半导体特性.纳米线的总磁矩主要来源于Mn原子3d轨道的贡献.由于杂化,相邻的O原子和Zn原子也产生了少量自旋.在超原胞内,Mn原子和O原子磁矩平行排列,表明它们之间是铁磁耦合.     

Cr掺杂ZnO纳米线的电子结构和磁性

采用自旋极化密度泛函理论系统研究了Cr掺杂ZnO纳米线的电学、磁学以及光学属性.计算结果显示,Cr原子沿[0001]方向替代ZnO纳米线中的Zn原子时体系一般呈现铁磁耦合,沿[1010]和[0110]方向替代Zn原子时体系呈现反铁磁耦合,且磁性耦合状态在费米能级附近出现了明显的自旋劈裂现象,发生了强烈的Cr 3d和O 2p杂化效应.自旋态密度计算结果显示,磁矩主要来源于Cr原子未成对3d态电子的贡献,磁矩的大小与Cr原子的电子排布有关.光学性质计算结果显示,Cr掺杂ZnO纳米线在远紫外和近紫外都具有明显的吸收峰,吸收峰发生了明显的红移.这些结果都表明Cr掺杂ZnO纳米线也许是一种很有前途的稀磁半导体材料. 关键词： ZnO 纳米线 第一性原理 磁性     

过渡金属掺杂氧化锌团簇的物性研究

本文采用第一性原理密度泛函理论研究了过渡金属（TM）原子Cr和Fe单掺杂和双掺杂(ZnO)12团簇的结构和磁性质。我们考虑了替代掺杂和间隙掺杂。结果表明Cr 和 Fe间隙掺杂团簇结构最稳定。团簇磁矩主要来自TM原子3d态的贡献,4s 和4p 态也贡献了一小部分磁矩。由于轨道杂化,相邻的Zn和O原子上也产生少量自旋。最近邻TM原子间的磁性耦合,主要由两个TM原子之间的直接短程铁磁耦合和TM和O原子之间通过p-d杂化产生的反铁磁耦合这两种相互作用的竞争来决定。不同TM原子掺杂团簇的总磁矩与TM原子种类以及掺杂位置有关,说明在(ZnO)12团簇中掺杂不同TM原子在可调磁矩的磁性材料的领域有潜在应用价值。     

Co掺杂闪锌矿ZnO的磁性和光学性质

采用自旋极化密度泛函理论方法对Co掺杂闪锌矿ZnO的能带结构、态密度、磁学和光学属性进行了研究.计算结果显示:Co掺杂闪锌矿ZnO的基态是反铁磁态,具有金属性特征;而铁磁态具有半金属性特征.铁磁耦合在费米能级附近出现了明显的自旋劈裂现象,表现出明显的不对称性和强烈的Co 3d和O 2p杂化效应.磁矩主要来源于Co 3d轨道电子以及部分近邻耦合的O 2p轨道电子,大小与Co原子的掺杂位置有关.光学性质计算结果显示,Co掺杂闪锌矿ZnO在可见光范围内都有较强的光吸收能力,吸收峰在高能区发生了红移现象.理论计算结果表明,Co掺杂闪锌矿ZnO或许是一种优异的磁光材料.     

V掺杂ZnO团簇的结构和磁性质

本文采用第一性原理密度泛函理论系统的研究了V原子单掺杂和双掺杂(ZnO)_(12)团簇的结构和磁性质.我们考虑了三种掺杂方式:替代掺杂,外掺杂和内掺杂.单掺杂时,替代掺杂团簇是最稳定结构,而对于双掺杂,外掺杂团簇是最稳定结构.团簇磁矩主要来自V-3d态的贡献,4s和4p态也贡献了一小部分磁矩.由于轨道杂化,相邻的Zn和O原子上也产生少量自旋.V原子掺杂团簇的总磁矩与掺杂位置有关,说明V掺杂(ZnO)_(12)团簇在可调磁矩的磁性材料领域有潜在应用价值.     

V掺杂ZnO团簇的结构和磁性质

本文采用第一性原理密度泛函理论系统的研究了V原子单掺杂和双掺杂(ZnO)12团簇的结构和磁性质。我们考虑了三种掺杂方式：替代掺杂,外掺杂和内掺杂。单掺杂时,替代掺杂团簇是最稳定结构,而对于双掺杂,外掺杂团簇是最稳定结构。团簇磁矩主要来自V-3d态的贡献,4s和4p态也贡献了一小部分磁矩。由于轨道杂化,相邻的Zn和O原子上也产生少量自旋。V原子掺杂团簇的总磁矩与掺杂位置有关,说明V掺杂(ZnO)12团簇在可调磁矩的磁性材料领域有潜在应用价值。     

Co掺杂(ZnO)12团簇的结构和磁性质

采用第一性原理密度泛函理论系统地研究Co原子单掺杂和双掺杂(ZnO)₁₂团簇的结构和磁性质.考虑三种掺杂方式:替代掺杂,外掺杂和内掺杂.首先比较各种掺杂团簇的稳定性.结果表明,不管是单掺杂还是双掺杂,外掺杂团簇都是最稳定结构.在结构优化的基础上,对掺杂的(ZnO)₁₂团簇进行磁性计算.发现团簇磁矩主要来自Co-3d态的贡献,4s和4p态也贡献了一小部分磁矩.由于轨道杂化,相邻的Zn和O原子也产生少量自旋.Co原子之间的磁性耦合由直接的Co-Co反铁磁耦合和Co和O原子之间通过p-d杂化产生的铁磁耦合这两种相互作用的竞争决定.研究发现外双掺杂团簇存在铁磁耦合,在纳米量子器件有潜在的应用价值.     

Fe掺杂单壁ZnS纳米管磁性质

采用第一性原理密度泛函理论系统研究Fe原子掺杂单壁ZnS纳米管的结构和磁性质.首先比较掺杂纳米管的稳定性.结果表明,掺杂纳米管的形成能比纯纳米管的形成能低,说明掺杂过程是一个放热反应.单掺杂纳米管的总磁矩等于掺杂的磁性原子的磁矩,主要来自Fe原子3d态的贡献.Fe原子掺杂单壁ZnS纳米管趋向于反铁磁态.为了得到稳定的铁磁态,用一个C原子替代掺杂体系中的一个S原子.计算发现铁磁态的能量比亚铁磁态低0.164 eV的.在铁磁态和反铁磁态之间存在的巨大的能量差,表明此掺杂体系可能获得室温铁磁性.     

Cr掺杂ZnS纳米管结构和磁性质（英文）

采用第一性原理密度泛函理论系统研究Cr原子单掺杂和双掺杂单壁Zn S纳米管的结构和磁性质.研究发现掺杂纳米管的形成能比纯纳米管的形成能低,说明掺杂过程是放热的.单掺杂纳米管的总磁矩主要来自Cr原子3d态的贡献.结果表明Cr原子掺杂单壁Zn S纳米管趋向于铁磁态.但铁磁态和反铁磁态的能量差仅为0.036 e V.为获得室温铁磁性,我们用一个C原子替代掺杂体系中的一个S原子.计算发现铁磁态的能量比反铁磁态低0.497e V.表明此掺杂体系可能获得室温铁磁性.     

镉取代对纳米镍铁氧体结构和磁性的影响

采用湿化学共沉淀法合成了Ni_1-xCd_xFe₂O₄ (0≤x≤0.5)的混合铁氧体,利用X射线衍射对其结构和晶相进行表征．结果表明：随着镉Cd浓度的增加晶格参数逐渐增大．扫描电子显微镜研究微观结构,TG/DTA研究了硫酸共沉淀物．揭示了在650 oC合成铁氧体同时进行分解．测量了纳米粒子的磁化强度和交流磁化率．结果表明,Ni_1-xCd_xFe₂O₄混合铁氧体的磁化率、居里温度和有效磁矩随着镉含量的增加下降。     

Pt974Mn26/Co多层膜的磁性与磁光性质研究

用磁控溅射法制备了Mn含量一定、不同PtMn层厚度的Pt974Mn26/Co磁性多层膜系列，通过x射线衍射对该多层膜系列进行结构分析；测定了不同PtMn层厚度系列样品的磁滞回线、有效垂直各向异性，分析了饱和磁化强度和有效垂直各向异性变化的原因；通过测定该多层膜体系的克尔谱，分析了一定波长下克尔角随PtMn层厚度变化的规律.认为克尔角的变化是由于界面的合金化以及原子的极化减小所致. 关键词： 多层膜 磁性 磁光     

Preparation and characterization of nontoxic magnetic-luminescent nanoprobe

A novel nontoxic,magnetic,and luminescent nanoprobe is prepared by using complex nanoparticles,which are composed of Fe3O4 nanoparticles and Mn-doped ZnS quantum dots(QDs).The nanocomposite probe can provide visible optical and magnetic resonance images simultaneously.Compared with the previously toxic cadmium and mercury based QDs,the superiority of the Mn-doped ZnS QDs is little virulence.The structure and the properties of the particles are characterized by energy dispersive X-ray analysis spectroscopy,X-ray photoelectron spectroscopy,transmission electron microscopy,photoluminescence spectroscopy,and vibrating sample magnetometer.     

Dielectric and magnetic properties of low-temperature fired NiCuZn-BaTiO3 composites

The composition effects on the dielectric and magnetic properties of NiCuZn-BaTiO₃ composites fired at low temperature were investigated. The coexistence of perovskite BaTiO₃ and spinel ferrite phases in the composites were observed; no significant chemical reactions occurred between BaTiO₃ and NiCuZn ceramics during sintering. The nanosized BaTiO₃ powders favored a decrease in grain size. The saturation magnetization, remanent magnetization and real permeability continuously decreased with increasing BaTiO₃ content. And the real permittivity continuously increased with the BaTiO₃ content. The Q-factor (quality factor) exhibited relatively high values with 20-30 wt% BaTiO₃. All composite materials exhibited a low dielectric loss below 100 MHz. Synthetically considerations, the composites with 20-30 wt% BaTiO₃ could obtain relatively high real permeability and real permittivity values, and the magnetic and dielectric losses were relatively low, so they were the best candidates to produce LC-integrated chip elements.     

The structural, electronic, elastic and optical properties of AlCu(Se1−xTex)2 compounds from first-principle calculations

The structural, electronic structure, elastic and optical properties of the AlCu(Se_1−xTe_x)₂ compounds have been investigated by using a first-principles method based on density functional theory. The lattice constants of the quaternary compounds AlCu(Se_1−xTe_x)₂ increase with the increasing of Te composition. The calculated lattice constants for the ternary compounds i.e. AlCuSe₂ and AlCuTe₂ are in good agreement with the experimental data. The band structures show that the compounds have direct band gap and the band gaps are found to vary nonlinearly with composition. The total and part density of states of the quaternary AlCu(Se_1−xTe_x)₂ compounds are discussed. The calculated elastic constants indicate that all of the AlCu(Se_1−xTe_x)₂ compounds are mechanically stable. The bulk modulus B, shear modulus G, Young’s modulus E and Poisson’s ratio ν can be obtained by using the Voigt-Reuss-Hill averaging scheme. The B/G ratios of the AlCu(Se_1−xTe_x)₂ compounds indicate that AlCu(Se_0.8Te_0.2)₂ is ductile and the others are brittle. The Debye temperature of the AlCu(Se_1−xTe_x)₂ compounds decreases a little with increasing Te content except the compound with x = 0.4. The dielectric functions, refractive index, extinction coefficient, absorption spectrums and energy-loss function of the AlCuSe₂ and AlCuTe₂ are also calculated and discussed in this work.     

Multiferroic properties in terbium orthoferrite

Multiferroic properties in a polycrystalline terbium orthoferrite are investigated. Different thermomagnetic behaviors are observed in different magnetic fields, which is attributed to the suppression of the low temperature magnetic phase by an external magnetic field. Further studies reveal that the ferroelectricity originates from the spin configuration below3.5 K. In addition, the magnetic field control of electric polarization and dielectric constant is observed, which suggests a magnetoelectric effect in TbFeO3. The origin of ferroelectricity in this rare-earth orthoferrite is discussed.     

分子基磁体Cr[N(CN)2]2电子结构和半金属性的第一性原理研究

基于第一性原理方法结合广义梯度近似,研究了分子基磁体Cr[N(CN)₂]₂的电子结构和半金属性. 对总能量,自旋极化的能带结构,态密度以及自旋磁矩的计算表明该分子磁体为半金属铁磁体．每个分子的总磁矩为2.00μB,其中Cr²⁺对分子磁矩的贡献较大,而配位体上的碳原子和氮原子的贡献相对较小．讨论了当晶格常数发生小幅变化时材料半金属性的变化.     

Electronic and thermodynamic and elastic properties of pyrite RuO2

This paper calculates the elastic,thermodynamic and electronic properties of pyrite (P a3ˉ) RuO2 by the plane-wave pseudopotential density functional theory (DFT) method.The lattice parameters,normalized elastic constants,Cauchy pressure,brittle–ductile relations,heat capacity and Debye temperature are successfully obtained.The Murnaghan equation of state shows that pyrite RuO2 is a potential superhard material.Internal coordinate parameter increases with pressure,which disagrees with experimental data.An analysis based on electronic structure and the pseudogap reveals that the bonding nature in RuO2 is a combination of covalent,ionic and metallic bonding.A study of the elastic properties indicates that the pyrite phase is isotropic under usual conditions.The relationship between brittleness and ductility shows that pyrite RuO2 behaves in a ductile matter at zero pressure and the degree of ductility increases with pressure.     

Dielectric and piezoelectric properties of(110) oriented Pb(Zr_(1-x)Ti_x)O_3 thin films

A phenomenological Landau–Devonshire theory is developed to investigate the ferroelectric, dielectric, and piezoelectric properties of(110) oriented Pb(Zr_(1-x)Ti_x)O_3(x = 0.4, 0.5, 0.6, and 0.7) thin films. At room temperature, the tetragonal a_1 phase, the orthorhombic a_2c phase, the triclinic γ_1 phase, and the triclinic γ_2 phase are stable. The appearance of the negative polarization component P_2 in the a_2c phase and the γ_1 phase is attributed to the nonlinear coupling terms in the thermodynamic potential. The γ phase of the Pb(Zr_(1-x)Ti_x)O_3 thin films has better dielectric and piezoelectric properties than the a_2c phase and the a_1 phase. The largest dielectric and piezoelectric coefficients are obtained in the Pb(Zr_(0.5)Ti_(0.5))O_3 thin film. The piezoelectric coefficient of 110–150 pm/V is obtained in the(110) oriented Pb(Zr_(0.5)Ti_(0.5))O_3 thin film, and the Pb(Zr_(0.3)Ti_(0.7))O_3 thin film has the remnant polarization and relative dielectric constant of 50 μC/cm~2 and 100, respectively,which are in agreement with the experimental measurements reported in the literature.     

沙漠的沙粒物理特性分析

以北京北郊的沙漠沙为研究对象,对其多种物理特性进行测量和分析,提取其中的流体力学和粉体力学特征,建立这些特性参数之间的横向联系,指出了圆度、粒径分布和平均粒径等形貌特征参数对于沙粒的颗粒间作用力效果的重要影响;用测量结果验证和解释了沙丘结构的一些现象和规律。