LSDA+U方法研究PuO2电子结构和成键特征

采用LSDA(局域自旋密度近似) U(有效库仑相关能)方法计算研究了PuO2的电子结构和成键特征。计算的平衡体积和半导体带隙分别为0.03875 nm3和0.18 eV,与实验结果符合得很好。能态密度和电子密度的分析表明PuO2并不是纯粹的离子晶体,Pu5f和O2p轨道杂化形成共价键。计算结果有助于理解PuO2晶体中Pu5f电子的关联效应。     

First principles study of the magnetism driven by cation defects in CeO₂:the important role of O2p states

The magnetism driven by cation defects in undoped CeO 2 bulk and thin films is studied by the density functional theory corrected for on-site Coulomb interactions (DFT+U) with U = 5 eV for the Ce4f states and U = 7 eV for the O2p states. It is found that the Ce vacancies can induce a magnetic moment of the ～ 4 μ B /supercell, which arises mainly from the 2p hole state of the nearest neighbouring O atom (～ 1 μ B on per oxygen) to the Ce vacancy. The effect of the methodology is investigated, indicating that U = 7 eV for the O2p state is necessary to obtain the localized O2p hole state in defective ceria with cation vacancies.     

Effect of Coulomb correlations on the electronic structure of PuCoGa(5)

We investigate the effect of strong Coulomb correlations on the electronic structure of the Pu-based superconductor PuCoGa5 by employing the relativistic local spin density approximation+ Hubbard U (LSDA+U) method. The inclusion of intra-atomic Coulomb U and exchange J parameters leads to a significant reconstruction of the f states electronic structure over that given by the LSDA approach. At variance with the LSDA, the LSDA+U suggests "jj"-like coupling for the Pu 5f manifold.     

Ab initio study on phase transition and magnetism of BiFeO3 under pressure

In this paper the first-principles calculations within local spin density approximation (LSDA)+U show that BiFeO3 experiences a mixed phase state with P4mm structure being the intermediate phase before the pressure of phase transition is reached. The critical pressure for the insulator-metal transition (IMT) is found to be about 50 GPa. A pressure induced crossover of high-spin states and low-spin states is observed close to the IMT pressure in R3c structure. The LSDA+U calculations account well for the mechanism of the IMT and crossover of spin states predicted in recent experiment (Ref.[1]).     

Structural properties and 4f → 5d absorptions in Ce-doped LuAlO?: a first-principles study

The structural properties and the 4f → 5d absorptions of Ce-doped LuAlO(3) have been studied using the density functional theory-based generalized gradient approximation PBE + U (PBE: Perdew, Burke and Ernzerhof) and wavefunction-based embedded cluster calculations, respectively. The PBE or PBE + U calculations reveal that the substitution of Ce for Lu induces a strongly anisotropic distortion of the local atomic structure around the dopant site, which is largely insensitive to the value of U for the Ce 4f states. The calculated electronic structures depend explicitly on the value of U, and a value of U ≈ 6 eV is determined by comparison with experimental x-ray photoelectron data for CeAlO(3). On the basis of the PBE-optimized structure, CASSCF/CASPT2 (complete-active-space self-consistent-field/second-order perturbation theory) embedded cluster calculations for the Ce(3+) 4f → 5d transitions yield energy and intensity patterns in fairly good agreement with those estimated from the experimental absorption spectrum. A Mulliken spin population analysis for the 5d(1) states shows that the origins of the states are significantly different from being caused by the cubic crystal field, confirming an earlier conclusion as regards the origin of the 5d(1) states based on semiempirical molecular orbital calculations. The importance of spin-orbit effects on the energies and wavefunctions of the Ce 5d(1) states is highlighted.     

Insulating ground state of Sn/Si(111)-(square root 3 x square root 3)R30 degrees

The Sn/Si(111)-(square root 3 x square root 3)R30 degrees surface was so far believed to be metallic according to the electron counting argument. We show, by using tunneling spectroscopy, scanning tunneling microscopy, photoemission, and photoelectron diffraction, that below 70 K this surface has a very low density of states at the Fermi level and is not appreciably distorted. The experimental results are compatible with the insulating Mott-Hubbard ground state predicted by LSDA+U calculations [G. Profeta and E. Tosatti, Phys. Rev. Lett. 98, 086401 (2007)].     

Electronic structure of CdTe probed by Cd and Te M4,5 X-ray emission spectra

We have investigated the bulk electronic structure of CdTe focusing on the Cd 5p and Te 5p valence states by X-ray emission spectroscopy (XES). Despite the very low fluorescence yields the Cd and Te M_4,5 (5p → 3d_3/2,5/2) spectra have been recorded successfully. A good correspondence has been found between the valence band XES and X-ray photoelectron spectra (XPS) by comparison on a common binding energy scale. We also performed a density functional theory calculation of the CdTe valence band, obtaining the Cd 4d, 5s, 5p and Te 5s, 5p local partial densities of states. The experimental Cd 5p and Te 5p derived from the X-ray emission spectra are in good agreement with the calculation. The intensity ratio of the Cd M_4,5 to the Te M_4,5 spectrum is obtained to be 0.25, in agreement with the ratio of the calculated Cd 5p to the Te 5p density of states in the CdTe upper valence band (0.22).     

Understanding STM images and EELS spectra of oxides with strongly correlated electrons: a comparison of nickel and uranium oxides

Using a theoretical approach combining the local spin density approximation (LSDA) of density functional theory and the Hubbard U term (LSDA + U), we analyse the connection between the experimentally observed electron energy loss spectra and elevated temperature scanning tunnelling images of surfaces of semiconducting nickel monoxide NiO and uranium dioxide UO2. We show that a combination of electron energy loss spectroscopy, atomic-resolution tunnelling imaging and first-principles ab initio calculations provides a powerful tool for studying electronic and structural properties of surfaces of transition metal and actinide oxides.     

Ab initio studies on magnetism and hybridization of the ternary germanide

We perform a theoretical investigation on the magnetism and orbital hybridization in ternary germanide Ce₃Ni₂Ge₇ using the full-potential linearized augmented plane wave method (FP_LAPW) based on the density functional theory (DFT). The calculation with local spin density approximation (LSDA) predicts that there are two states for the Ce atoms due to the different environment: one (Ce₁) is near the nonmagnetic state and the other (Ce₂) is localized and magnetic. The orbital hybridization plays a key role in determining the state of Ce. On adding on-site Coulomb potential to the localized Ce₂-4f orbit, the magnetic moment obtained from our calculation fits well with the experimental value.     

A comparative study of a Heusler alloy Co2FeGe using LSDA and LSDA+U

We have calculated the on-site Coulomb repulsion (U) for the transition elements Co and Fe. To study the impact of Hubbard potential or on-site Coulomb repulsion (U) on structural and electronic properties the calculated values of U were added on GGA and LSDA. We performed the structure optimization of Co₂FeGe based on the generalized gradient approximation (GGA and GGA+U). The calculation of electronic structure was based on the full potential linear augmented plane wave (FP-LAPW) method and local spin density approximation (LSDA) as well as exchange correlation LSDA+U. The Heusler alloy Co₂FeGe fails to give the half-metallic ferromagnetism (HMF) when treated with LSDA. The LSDA+U gives a good result to prove that Co₂FeGe is a HMF with a large gap of 1.10 eV and the Fermi energy (E_F) lies at the middle of the gap of minority spin. The calculated density of states (DOS) and band structure show that Co₂FeGe is a HMF when treated with LSDA+U.     

Charge density wave and excitonic magnetic polarons in CeTe2

Mechanisms of anomalous magnetic and transport properties in CeTe₂ observed recently on single-crystal samples are studied by comparing with the nonmagnetic reference material LaTe₂, as well as other typical low carrier-density systems such as Ce monopnictides, doped Eu chalcogenides and Yb₄As₃. The present system is unique on the point of low-carrier semimetal due to CDW of near perfect nesting, which is shown to be nearly independent of the spin–orbit splitting. The large residual resistivity indicates the giant molecular scattering due to excitonic states forming the distorted Wigner crystal, similar to Yb₄As₃. At low temperatures, induced magnetic polarons cause unusual novel transport properties with a sharp peak of resistivity without any anomaly on other physical properties. This is attributed to a sharp glassy transition from an antiferromagnetic short-range ordering to the ferromagnetic ordering of the magnetic polarons within each CeTe double layer sandwiching the mono Te layer. It is shown that, similar to Ce monopnictides, the type strong nonlinear p–f mixing is the origin of the main anomalous magnetic properties. Lattice polarons are essential for the stable excitonic states in LaXc₂, as well as in CeTe₂ in the ferromagnetic state.     

139Ce的多准粒子激发态

利用能量为50MeV的¹²C束流, 通过反应¹³⁰Te(¹²C,3n)布居了¹³⁹Ce的高自旋态. 基于标准在束核谱学实验测量结果, 扩展并更新了¹³⁹Ce的能级纲图. ¹³⁹Ce的能级结构具有球形原子核的典型特征, 其高自旋态由单粒子激发形成. 利用经验壳模型计算了¹³⁹Ce的多准粒子激发态能量, 研究了其高自旋激发态的多准粒子特性.     

Gd2Co2Al电子结构和磁性的第一性原理研究

从第一性原理出发，在局域自旋密度近似(LSDA)和LSDA+U(在位库仑能)近似下，采用FPLAPW密度泛函能带计算方法研究了Gd₂Co₂Al的电子结构和磁性. 从平均场近似出发，估算了体系的居里温度，并分析了导致体系居里温度偏低的原因.研究结果显示Gd₂Co₂Al为金属导体，其强的铁磁性的提供者主要是Gd，且Co的局域铁磁性是不稳定的. 基于LSDA近似的计算表明Gd₂Co₂关键词： 稀土过渡族金属间化合物 密度泛函理论 电子结构 磁性性质     

Fermi surface of NaxCoO2

Doping evolution of the Fermi surface topology of Na(x)CoO(2) is studied systematically. Both local density approximation (LDA) and local spin density approximation (LSDA) predict a large Fermi surface as well as small hole pockets for doping levels x approximately 0.5. In contrast, the hole pockets are completely absent for all doping levels within LSDA+U. More importantly, we find no violation of Luttinger's rule in this system. The measured Fermi surface of Na(0.7)CoO(2) can be explained by its half-metallic behavior and agrees with our LSDA+U calculations.     

Ab initio studies of half-metallic ferromagnetism in carbon-doped CeO2

The electronic structures and magnetic properties in Carbon-doped CeO₂ have been investigated by means of first-principles calculations based on the LSDA+U scheme. The results demonstrate a magnetic moment of 2.00 μ_B per supercell with one Carbon dopant which mainly stems from Hund’s rule coupling based on rather localized 2p, 5d and 4f states. The hole-mediated long-range magnetic coupling between local magnetic moments can be attributed to the collective effects of the p–p, p–d, and p–f hybridizations between C and neighboring O or Ce atoms. Ferromagnetism and half-metallic characteristics of C-doped CeO₂ make it possible to be an ideal material for spintronic devices.     

Pt/Ce4O8团簇催化活性的第一性原理研究

基于密度泛函理论的第一性原理计算程序包VASP（Vienna ab-initio Simulation Package）,采用投影缀加平面波（Projector augmented wave,PAW）方法和具有三维周期性边界条件的超原胞模型,对Pt在Ce₄O₈团簇上的吸附特性进行了研究,结果表明Pt在Ce₄O₈团簇上的吸附作用很强,其吸附能大于Pt在CeO₂晶体表面的吸附能.所得吸附构型可分为三类:单键类,双键类和多键类.对其中最稳定吸附构型的电子结构分析表明:Pt的吸附诱导出了间隙态.该态距离费米能级很近,使Pt/Ce₄O₈团簇活性很强.Pt与Ce₄O₈团簇发生了部分电荷转移,从而使其中的一个Ce⁴⁺还原为Ce³⁺.这些结果有助于理解在纳米尺度范围内Pt与CeO₂的协同作用.     

Pt/Ce4O8团簇催化活性的第一性原理研究

基于密度泛函理论的第一性原理计算程序包VASP(Vienna ab-initio Simulation Package), 采用投影缀加平面波(Projector augmented wave, PAW)方法和具有三维周期性边界条件的超原胞模型, 对Pt在Ce4O8团簇上的吸附特性进行了研究. 结果表明Pt在Ce4O8团簇上的吸附作用很强，其吸附能大于Pt在CeO2晶体表面的吸附能. 所得吸附构型可分为三类：单键类, 双键类和多键类. 对其中最稳定吸附构型的电子结构分析表明：Pt的吸附诱导出了间隙态. 该态距离费米能级很近，使Pt/Ce4O8团簇活性很强. Pt与Ce4O8团簇发生了部分电荷转移, 从而使其中的一个Ce4+还原为Ce3+. 这些结果有助于理解在纳米尺度范围内Pt与CeO2的协同作用.     

Pressure dependence of the charge-density-wave gap in rare-earth tritellurides

We investigate the pressure dependence of the optical properties of CeTe3, which exhibits an incommensurate charge-density-wave (CDW) state already at 300 K. Our data are collected in the midinfrared spectral range at room temperature and at pressures between 0 and 9 GPa. The energy for the single particle excitation across the CDW gap decreases upon increasing the applied pressure, similarly to the chemical pressure by rare-earth substitution. The broadening of the bands upon lattice compression removes the perfect nesting condition of the Fermi surface and therefore diminishes the impact of the CDW transition on the electronic properties of RTe3.     

An ab initio study of filled skutterudites ROs4P12 (R = Sm,Eu and Gd)

The elastic, electronic, magnetic and optical properties of filled skutterudite ROs₄P₁₂ (R = Sm, Eu and Gd) have been studied by first principles calculation. The full-potential linearized augmented plane wave method based on density functional theory was employed. For the exchange-correlation potential, local spin density approximation + Coulomb repulsion (LSDA + U) is used to treat the f-electrons more effectively. The numerical values of the elastic parameters are estimated in the framework of the Voigt–Reuss–Hill approximation. OsP-based filled skutterudite with localized 4f and 5d-electrons shows dense energy bands near Fermi energy originating from rare earth and Os atoms. The dense density of states near E_F reveals that these compounds are suitable for thermoelectric application. Optical constants including dielectric function, optical reflectivity and refractive index are calculated for photon energy radiation up to 12 eV. The exchange-splitting of R-4f states were analyzed to explain the ferromagnetic behavior of ROs₄P₁₂.