第一性原理研究闪锌矿结构CrSe和CrAs半金属铁磁性的稳定性

运用第一性原理的全势能线性缀加平面波方法对闪锌矿结构CrSe和CrAs的电子结构进行自旋极化计算。闪锌矿结构CrSe和CrAs处于晶格平衡时都具有半金属性,它们自旋向下的电子能带带隙分别为3.38eV 和1. 79eV,同时,它们的自旋总磁矩分别为4.00和3.00μB/formula。自旋总磁矩主要来源于Cr的原子磁矩,Se和As的原子磁矩对总磁矩的贡献很小而且为负值,因而它们具有明显的铁磁性特征. 使晶体晶格在±10%的范围内发生各向同性形变,对闪锌矿结构CrSe和CrAs的电子结构进行计算. 计算结果表明,当晶格各向同性形变分别为-4 % ~ 10 %和-2 % ~10 %时,闪锌矿结构CrSe和CrAs仍然保持半金属铁磁性,并且总磁矩都稳定于4.00和3.00μB/formula.     

第一性原理研究闪锌矿结构CrSe和CrAs半金属铁磁性的稳定性

运用第一性原理的全势能线性缀加平面波方法对闪锌矿结构CrSe和CrAs的电子结构进行自旋极化计算.闪锌矿结构CrSe和CrAs处于晶格平衡时都具有半金属性,它们自旋向下的电子能带带隙分别为3.38 eV和1.79 eV,同时,它们的自旋总磁矩分别为4.00和3.00μ_B/formula.自旋总磁矩主要来源于Cr的原子磁矩,Se和As的原子磁矩对总磁矩的贡献很小而且为负值,因而它们具有明显的铁磁性特征.使晶体晶格在±10%的范围内发生各向同性形变,对闪锌矿结构CrSe和CrAs的电子结构进行计算.计算结果表明,当晶格各向同性形变分别为-4%～10%和-2%～10%时,闪锌矿结构CrSe和CrAs仍然保持半金属铁磁性,并且总磁矩都稳定于4.00和3.00μ_B/formula.     

Half-metallic ferromagnetism in Cu-doped zinc-blende ZnO from first principles study

Electronic structures and magnetism of Cu-doped zinc-blende ZnO have been investigated by the first-principle method based on density functional theory (DFT). The results show that Cu can induce stable ferromagnetic ground state. The magnetic moment of supercell including single Cu atom is 1.0 μ_B. Electronic structure shows that Cu-doped zinc-blende ZnO is a p-type half-metallic ferromagnet. The half-metal property is mainly attribute to the crystal field splitting of Cu 3d orbital, and the ferromagnetism is dominated by the hole-mediated double exchange mechanism. Therefore, Cu-doped zinc-blende ZnO should be useful in semiconductor spintronics and other applications.     

Defect-induced ferromagnetism in rutile TiO_2 : A first-principles study

Based on first-principles calculations, the electronic and magnetic properties of undoped and Li-doped rutile TiO2 have been studied. The results demonstrate that a cation vacancy can arouse ferromagnetism in TiO2 and the magnetic moment mainly comes from p orbitals of O atoms around the Ti vacancy. However, the Ti vacancy under normal conditions is very difficult to form due to its high formation energy. Our calculations indicate that Li-doped TiO2 can reduce the formation energy while keeping the magnetism. The large magnetization energy indicates that Li-doped TiO2 is a promising room-temperature diluted magnetic semiconductor.     

Half-metallic ferromagnetism of zinc-blende CrS and CrP: a first-principles pseudopotential study

The electronic structure and the ferromagnetism of CrS and CrP in the zinc-blende (ZB) phase are investigated by spin-polarized calculations with first-principles plane-wave pseudopotential method within the generalized gradient approximation for the exchange-correlation potential. From the analysis of the spin-dependent density of states, band structure and magnetic moment, we predict that ZB CrS and CrP at their respective equilibrium lattice constant are half-metallic ferromagnets with a magnetic moment of 4.00 and 3.00μ_B per formula unit, respectively. We also find that the ZB CrS maintains half-metallic ferromagnetism up to 3% compression of lattice constant while the half-metallic ferromagnetism for ZB CrP exists only near its equilibrium lattice constant.     

碳掺杂BaTiO3的电子结构和磁性研究

基于密度泛函理论,从头计算了C间隙和替位氧掺杂立方结构BaTiO3的电子结构和磁学性质．结果表明C掺杂BaTiO3在自旋极化状态下的总能量比自旋非极化状态下的总能量小,说明C掺杂BaTiO3的基态具有铁磁性．从态密度和自旋电子密度分布可知,C位于BaTiO3间隙的磁性机理和过渡金属掺杂半导体产生磁性的机理类似：C替位掺杂BaTiO3体系磁性源于未配对的C2p电子．     

密度泛函理论研究闪锌矿结构CrTe和VTe半金属铁磁性的稳定性

采用基于密度泛函理论的全势能线性缀加平面波方法对闪锌矿结构CrTe和VTe的电子结构进行自旋极化计算.闪锌矿相CrTe和VTe处于平衡晶格常数时都是半金属性的,它们自旋向下子能带的带隙分别是2.82 eV和2.70 eV,半金属隙分别是0.89 eV和0.33 eV.使晶体相对于平衡晶格在±10%的范围内发生各向同性形变,对闪锌矿相CrTe和VTe的电子结构进行计算,计算结果表明相对于平衡晶格的各向同性形变分别为-6%～10%和-3%～10%时它们仍然具有半金属性质;与此同时,在以上相同的形变范围内闪锌矿相CrTe和VTe的总磁矩分别稳定于4.00μB/formula和3.00μs/formula.在晶体相对于平衡晶格发生各向同性形变分别为-6%～10%和-3%～10%时,闪锌矿相CrTe和VTe能保持半金属铁磁性.     

密度泛函理论研究闪锌矿结构CrTe和VTe半金属铁磁性的稳定性

采用基于密度泛函理论的全势能线性缀加平面波方法对闪锌矿结构CrTe和VTe的电子结构进行自旋极化计算。闪锌矿相CrTe和VTe处于平衡晶格常数时都是半金属性的,它们自旋向下子能带的带隙分别是2.82eV和2.70eV,半金属隙分别是0.89eV和0.33eV. 使晶体相对于平衡晶格在±10%的范围内发生各向同性形变,对闪锌矿相CrTe和VTe的电子结构进行计算,计算结果表明相对于平衡晶格的各向同性形变分别为-6 %~ 10 %和-3 %~10 %时它们仍然具有半金属性质;与此同时,在以上相同的形变范围内闪锌矿相CrTe和VTe的总磁矩分别稳定于4.00 /formula和3.00 /formula. 在晶体相对于平衡晶格发生各向同性形变分别为-6%~10%和-3 %~10 %时,闪锌矿相CrTe和VTe能保持半金属铁磁性。     

第一性原理研究half-Heusler合金VLiBi和CrLiBi的半金属铁磁性

构建只含有一种过渡金属元素的half-Heusler合金VLiBi和CrLiBi.采用第一性原理的全势能线性缀加平面波方法计算half-Heusler合金VLiBi和CrLiBi的电子结构.计算结果表明,VLiBi和CrLiBi是半金属性铁磁体,它们的半金属隙分别是0.25 eV和0.46 eV,晶胞总磁矩分别为3.00 μ_B和4.00 μ_B.磁性计算结果显示,晶胞总磁矩主要来源于V和Cr的原子磁矩,Li和Bi的原子磁矩较弱,而且Bi的原子磁矩为负值.利用平均场近似方法计算合金的居里温度T_C,VLiBi和CrLiBi的居里温度（T_C）的估算值分别为1401 K和1551 K.使晶格常数在±10%的范围内变化,分别计算VLiBi和CrLiBi的电子结构.计算研究表明,晶格常数在-5.6%–10%和-6.9%–10%的范围内变化时VLiBi和CrLiBi仍具有半金属性,并且晶胞总磁矩稳定于3.00 μ_B和4.00 μ_B.采用局域密度近似（LDA）+U（电子库仑相互作用项）的方法计算VLiBi和CrLiBi的电子结构,当U的取值增大到5 eV时VLiBi和CrLiBi仍保持半金属性.此外,采用考虑自旋-轨道耦合（spin-orbit coupling,SOC）效应的广义梯度近似（GGA）+SOC方法计算VLiBi和CrLiBi的电子结构,计算结果显示有微弱的自旋向下能带穿过费米能级,此时VLiBi和CrLiBi在费米面处的自旋极化率分别为98.8%和94.3%,它们的晶胞总磁矩分别为3.03 μ_B和4.04 μ_B.VLiBi的半金属性几乎不受SOC效应的影响,而CrLiBi在费米面处仍有较高的自旋极化率.     

半金属磁性材料研究进展

半金属材料是一种新型的功能自旋电子学材料，是一种具有特殊能带结构的物质，近年来13益受到人们的关注。半金属材料从微观上具有导体和绝缘体双重性质：对一种自旋取向的电子其能带结构呈现金属性，而另一自旋取向的电子其能带结构呈现绝缘体性．文章着重对Half—Heusler结构半金属材料、CrO2铁磁半金属、Fe3O4亚铁磁材料半金属、反铁磁材料半金属和钙钛矿及双钙钛矿半金属的结构特性进行分析和综述，并对半金属材料的应用原理和应用前景作了阐述。     

In assisted realization of p-type C-doped ZnO: A first-principles study

C mono-doped and C–In co-doped ZnO are investigated by the first-principles calculations. It is found that the C mono-doped ZnO is p-type with hole carriers locating nearby valence band maximum. Furthermore, a shallower C acceptor energy level appears in the band gap after incorporating In into C-doped ZnO system. Meantime, compared with C mono-doped ZnO, C–In co-doped ZnO has a lower formation energy, correspondingly a higher chemical stability, and thus to enhance the incorporation efficiency of C. These results suggest that C–In co-doping method provided an efficient technique for realizing p-type ZnO.     

Half-metallic ferromagnetism in cubic perovskite type NdInO3

ABSTRACT

Based on the full-potential linearised augmented plane wave plus local orbitals (FP-L/APW?+?lo) method within the density functional theory (DFT), the structural, electronic, and magnetic calculations of the cubic oxide perovskite NdInO₃ compound have been done under the generalised gradient approximation (GGA). The exchange and correlation (XC) potential is defined as GGA framework in the analyses of structural properties, while both GGA and GGA?+?U (U is the Hubbard correlation term) approximations are taken to treat the electronic and magnetic properties. It is found that ferromagnetic (FM) configuration is reported as the most stable ground state of the cubic NdInO₃ material; however, the equilibrium lattice parameters such as lattice constant (a₀ ), bulk modulus (B₀ ), its first-pressure derivative (B’), and the minimum of total energy (E₀ ) are given in paramagnetic (PM), ferromagnetic (FM), and anti-ferromagnetic (AFM) states. The spin-polarized electronic structure calculations (band structure and density of states) of the cubic oxide perovskite NdInO₃ compound verify the half-metallic feature due to the spin-up case which has the metallic nature, whereas the spin-down case presents the semiconducting character. Moreover, the magnetic properties show the integer value of the total magnetic moment for the studied compound (3μ_B ), where it is manly contributed by Nd atoms with apparition of weak local magnetic moments in non magnetic In and O sites.     

Half-metallic ferromagnetism in rocksalt and zinc-blende MS (M=Li, Na and K): A first-principles study

First-principles full-potential linearized augmented plane-wave method is used to investigate the electronic structure and magnetic properties of hypothetical zinc-blende and rocksalt LiS, NaS and KS. We find that all the compounds except rocksalt LiS exhibit half-metallic ferromagnetism with an integer magnetic moment of 1.00 μ_B per formula unit. The ferromagnetism results from the spin-polarization of p states of anion S. Total energies calculations indicate the rocksalt phase is lower in energy than the zinc-blende one. The total energy differences are about 0.38, 0.36 and 0.32 eV per formula unit for LiS, NaS and KS, respectively. Meanwhile, it is shown that rocksalt NaS and KS have the half-metallic gaps of 0.22 and 0.41 eV, respectively, and the half-metallic gaps are 0.03, 0.46 and 0.65 eV for zinc-blende LiS, NaS and KS, respectively. We also find the half-metallicity is robust against the lattice contraction up to 7% and 13% for rocksalt NaS and KS, respectively. Although rocksalt LiS is nonmagnetic and metallic at the equilibrium lattice constant, it shows half-metallic ferromagnetism when the lattice constant is larger than 5.40 Å.     

N空位对Cu掺杂AlN电磁性质的影响的第一性原理研究

利用基于密度泛函理论的平面波超软赝势法研究了N空位对Cu掺杂AlN的电子结构和磁学性质的影响。结果表明,与Cu最近邻的N原子更易失去形成N空位。N空位的引入减小了Cu掺杂AlN体系的半金属能隙;减弱了Cu及其近邻N原子的自旋极化的强度以及Cu3d与N2p轨道间的杂化,因而减小了体系的半金属铁磁性。因此,制备Cu掺杂AlN稀磁半导体时应尽可能地避免产生N空位。     

三元化合物ZnCrS2电子结构和半金属铁磁性的第一性原理研究

以闪锌矿相的ZnS 2×2×1超原胞为基础,通过将其中的Zn用Cr按1∶1配比进行了a和b两种不同位置的替换构造出了三元化合物ZnCrS₂ 理论模型,然后采用基于密度泛函理论(DFT)的平面波超软赝势(PWPP)方法分别计算了两种不同模型ZnCrS₂的电子结构和磁学性质. 结果表明,两种模型的ZnCrS₂的铁磁态都比反铁磁态更稳定,均是半金属铁磁体(半金属能隙分别为0.9631 eV和0.7556 eV), 其中a位替换不但具有较大的半金属 关键词： 2')" href="#">ZnCrS₂ 电子结构 半金属铁磁性 第一性原理     

A first-principles study of ferromagnetism in Pd-doped ZnO

The electronic structures and magnetic properties of Pd-doped ZnO have been studied by the full-potential linear augmented plane wave (FLAPW) method using the generalized gradient approximation (GGA). We find that Pd-doped ZnO becomes 100% spin polarized when Pd substitutes for Zn in the 2×2×2 ZnO supercell. The supercell magnetic moment reaches 2.0μ_B. Long-range ferromagnetic (FM) coupling is obtained with all Pd dopant configurations, and a Curie temperature as high as 860 K is predicted for the ground-state configuration. The hybridized Pd(4d)-O(2p)-Zn(4d)-O(2p)-Pd(4d) chain formed through p-d-like coupling is responsible for the long-range room-temperature FM coupling. We discuss the effect of O vacancies or Zn vacancies on the magnetism as well.     

Half-metallic ferromagnetism and band gap reduction in Cu-doped zinc-blende BeO: First-principle study

In this paper, we report ferromagnetism in copper doped zinc-blende BeO. Our first-principles calculations based on spin density functional theory predicts a total magnetic moment of 1 μB per copper when copper substitutes beryllium in BeO, where 0.58 μB is localized at Cu atom. The results obtained show that the ferromagnetic state is 34 meV lower than the antiferromagnetic state. Calculations indicate an appreciable band gap reduction in BeO. The analysis of the partial density of states reveals that ferromagnetism and reduction of BeO band gap are principally due to the strong p–d coupling of О and Cu.     

镧铱硅电子结构与成键机理的第一性原理研究

利用基于密度泛函理论的第一性原理方法,系统研究了镧铱硅（La-Ir-Si）体系四种异构体的电子结构与成键机理．通过对能带结构、态密度的系统分析,发现：La-Ir-Si体系的超导属性与该体系中过渡元素Ir-d态和Si-p态的p-d轨道耦合强度有关．为了定量描述p-d轨道耦合的强度,采用了分子中的原子方法,针对La-Ir-Si体系成键过程中的电荷迁移进行了定量的分析,结果表明,超导的转变温度与体系中Ir原子basin中的电荷量成近线性关系． 关键词： La-Ir-Si 电子结构 超导属性 第一原理     

不同浓度C掺杂SnO_2的第一性原理计算

采用基于密度泛函理论的第一性原理对不同浓度C掺杂SnO_2体系的晶体结构、能带结构、态密度以及光学性质进行了计算.结果表明:掺杂C原子后,晶胞体积和晶格常数都略微增大,且随着掺杂浓度的增大而增大,能带的禁带宽度则随着浓度的增大而减小.在光学性质中,掺杂C原子后体系的光吸收边都向低能方向移动,随着掺杂浓度的增大,体系红移的幅度也增大.