第一性原理研究闪锌矿结构MnSb和MnBi半金属性和磁性的稳定性

采用基于第一性原理的全势能线性缀加平面波方法对闪锌矿结构MnSb和MnBi的电子结构进行自旋极化计算。闪锌矿结构MnSb和MnBi处于晶格平衡时都是半金属性的,并且它们自旋向下电子能带带隙分别是1.32eV 和1.27eV。闪锌矿结构MnSb和MnBi的自旋总磁矩都为4.00μB/formula,总磁矩主要来源于Mn的原子磁矩,Sb和Bi的原子磁矩对总磁矩的贡献很小而且为负值,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MnSb和MnBi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-1 % ~ 10 %和-4 % ~10 %时,闪锌矿结构MnSb和MnBi仍然保持半金属铁磁性,并且总磁矩都稳定于4.00μB/formula.     

第一性原理研究闪锌矿结构MnSb和MnBi半金属性和磁性的稳定性

采用基于第一性原理的全势能线性缀加平面波方法对闪锌矿结构MnSb和MnBi的电子结构进行自旋极化计算。闪锌矿结构MnSb和MnBi处于晶格平衡时都是半金属性的,并且它们自旋向下电子能带带隙分别是1.32eV 和1.27eV。闪锌矿结构MnSb和MnBi的自旋总磁矩都为4.00μB/formula,总磁矩主要来源于Mn的原子磁矩,Sb和Bi的原子磁矩对总磁矩的贡献很小而且为负值,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MnSb和MnBi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-1 % ~ 10 %和-4 % ~10 %时,闪锌矿结构MnSb和MnBi仍然保持半金属铁磁性,并且总磁矩都稳定于4.00μB/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.     

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.     

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。     

晶格各向同性应变对闪锌矿结构CrS和CrSe的半金属性和磁性的影响

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CrS和CrSe的电子结构进行自旋极化计算.闪锌矿相CrS和CrSe处于平衡晶格常数时为半金属性,它们的分子自旋磁矩都为4.00μ_B. 使晶体相对于平衡晶格在±10%的范围内发生各向同性应变,并计算闪锌矿相CrS和CrSe的电子结构.计算结果表明,闪锌矿相CrS和CrSe相对于平衡晶格的各向同性应变分别为-1%–10%和-4%–10%时仍然保持半金属铁磁性,并且分子总磁矩都稳定于4.00μ_B. 关键词： 各向同性应变 电子结构 半金属性 磁性     

晶格均匀体形变对闪锌矿结构CaC和 SrC半金属性和磁性的影响

采用基于第一性原理的全势能线性缀加平面波方法计算闪锌矿结构CaC和SrC的电子结构.计算结果表明,锌矿结构CaC和SrC是自旋向上电子为非金属性的半金属,其半金属隙分别为0.83 eV和0.81 eV.磁性的计算分析表明,CaC和SrC的晶胞总磁矩都为2.00μ_B,C的原子磁矩较强,Ca和Sr的原子磁矩较弱.使晶格均匀体形变△a/a₀限于±15%,在此范围内计算CaC和SrC的电子结构.计算研究表明,当闪锌矿结构CaC和SrC的晶格常数分别为0.490 nm—0.661 nm和0.539 nm—0.707 nm时,它们的半金属性不变,晶胞总磁矩仍然为2.00μ_B.     

第一性原理研究half-Heusler合金CoVTe和FeVTe半金属性及磁性的稳定性

本文构建了half-Heusler合金CoVTe和FeVTe.运用基于第一性原理的全势能线性缀加平面波方法,计算half-Heusler合金CoVTe和FeVTe的电子结构.电子结构的自旋极化计算结果表明,合金CoVTe和FeVTe具有半金属性,它们的半金属隙分别为0.21 eV和0.20 eV.磁性计算结果显示,合金CoVTe和FeVTe的晶胞总磁矩分别为2.00μ_B和1.00μ_B;合金晶胞中过渡金属V具有较强的原子磁矩,Te的原子磁矩较弱,而且为负值.使合金晶格均匀形变△a/a_0在±7%的范围内变化,分别计算CoVTe和FeVTe的电子结构.计算结果表明,晶格均匀形变△a/a_0分别为-7%—+7%和-4.8%—+7%时,合金CoVTe和FeVTe仍然保持半金属性,并且晶胞总磁矩分别稳定于2.00μ_B和1.00μ_B.     

MnSb/GaSb(001)界面半金属特性的第一性原理研究

利用密度泛函理论计算六角NiAs型和立方闪锌矿型MnSb的电子和电磁特性,研究闪锌矿MnSb与GaSb(001)界面,并采用广义渐变近似计算了交换-相关项．闪锌矿结构的MnSb具有半金属铁磁特性,单分子磁矩4μB,MnSb/GaSb(001)界面同样具有半金属特性．界面中Mn原子的磁矩减小,界面中Sb原子磁矩等于两个相应界面磁矩的平均值．另外计算了能带排列在异质结中价带偏移大约1.25 eV.     

Experimental and Theoretical Study of the Electronic States and Spectra of TeH and TeLi

Gas-phase emission spectra of the hitherto unknown free radical TeLi have been measured in the NIR range with a Fourier-transform spectrometer. The emissions were observed from a fast flow system in which tellurium vapor in argon carrier gas was passed through a microwave discharge and mixed with lithium vapor in an observation tube. Two systems of blue-degraded bands were measured at high spectral resolution in the ranges 8000-9000 and 5700-6700 cm(-1) and vibrational and rotational analyses were performed. In order to aid in the analysis of the experimental data, a series of relativistic configuration interaction calculations has been carried out to obtain potential curves for the low-lying states of TeLi and the isovalent TeH and also electric dipole transition moments connecting them. As in the TeH system, the ground state of TeLi is found to be X(2)Pi(i), but with a remarkably smaller spin-orbit splitting. The TeLi calculations indicate a strongly bound A(2)Sigma(+) state, while in TeH the analogous state is computed to lie significantly higher at approximately 32 000 cm(-1), and it is strongly predissociated. Based on the theoretical analysis, the observed TeLi band systems are assigned to the transitions A(2)Sigma(+)(A1/2)-->X(1)(2)Pi(3/2)(X(1)3/2) and A(2)Sigma(+)(A1/2)-->X(2)(2)Pi(1/2)(X(2)1/2). Analysis of the spectra has yielded the molecular constants (in cm(-1)) X(1)(2)Pi(3/2):omega(e)=457.49(3), omega(e)x(e)=2.482(9), B(0)=0.408908(8); X(2)(2)Pi(1/2): T(e)=2353.44(3), omega(e)=456.28(4), omega(e)x(e)=2.635(8), B(0)=0.414954(8), p(0)=1.00637(4); A(2)Sigma(+): T(e)=8574.64(2), omega(e)=437.81(3), omega(e)x(e)=2.581(8), B(0)=0.423903(8), p(0)=-0.19915(2), where the numbers in parentheses are the standard deviations of the parameters. Comparison of the isovalent TeLi and TeH systems emphasizes that the difference in bonding character (ionic in TeLi vs covalent in TeH) is responsible for qualitative differences in the electronic spectra of these two molecules. Copyright 2001 Academic Press.     

NOx formation and flame velocity profiles of iso- and n-isomers of butane and butanol

NO formation and flame propagation are studied in premixed flames of iso- and n-isomers of butane and butanol through experimental measurements and direct simulation of experimental profiles. The stabilized flame is realized through the impingement of a premixed combustible jet from a contraction nozzle against a temperature-controlled plate. The velocity field is obtained by means of Particle Image Velocimetry (PIV) and nitric oxide concentration profiles are measured using Planar Laser Induced Fluorescence (PLIF), calibrated using known NO seeding levels. It is found that NO formation in n- and iso-isomers is comparable under the conditions considered, except for rich butanol mixtures, whereby NO formation is higher for iso-butanol. Generally, less NO is formed in butanol flames than in the butane flames. The experiment is simulated by a 1D chemically reacting stagnation flow model, using literature models of C1–C4 hydrocarbons [Wang et al., 2010] and butanol combustion chemistry [Sarathy et al., 2009, 2012]. NO prediction is tested using two of these mechanisms with a previously-published NO_x submechanism added into the butane and butanol models. While a good level of agreement is observed in the velocity field prediction under lean and stoichiometric conditions, discrepancies exist under rich conditions. Greater discrepancies are observed in NO prediction, except for the C1–C4 mechanism which shows good agreement with the experiment under lean and stoichiometric conditions. The current study provides data for further development of mechanisms with NO_x prediction capabilities for the fuels considered here.     

Quantum and surface properties of free films and nanoshells of molecular and atomic thicknesses

An original technology and the properties of new thin film nanoobjects, free films and shells of molecular and atomic thicknesses, are presented. Special attention is paid to shells of monoatomic or monomoleculer thickness with unique surface properties that have not been found in bulk materials.     

MCNP-FISPACT耦合燃耗计算程序开发与测试

反应堆堆芯的燃耗计算关系到堆芯的燃料管理,并直接影响堆芯的经济性评估,因此如何快速且准确地对堆芯进行燃耗计算一直是反应堆物理设计的研究重点之一。随着反应堆的发展,其几何结构和物理特性日渐复杂,现有的一维、二维耦合燃耗程序因其在几何处理上的限制,难以满足先进反应堆精细设计分析的要求。为对复杂反应堆堆芯的燃耗情况进行计算,结合粒子输运程序MCNP 处理复杂几何和燃耗程序FISPACT处理核素全面的特点,开发了接口程序耦合MCNP 和FISPACT来进行燃耗计算,并对耦合程序进行了计算验证。采用了IAEA 基准校核例题和CFETR中国聚变工程实验堆例题进行程序验证,经计算得出的有效倍增因子随燃耗的变化曲线和TBR等数据与标准例题的结果符合良好,其误差在可接受范围内。     

Some problems of analysis and optimization of plates and shells

The classical optimization problems of plates and shells to satisfy a priori given geometry and dynamical characteristics are considered. Orthotropic plates and shells with variable thickness and low transverse stiffness are analyzed. First, some useful theorems and their proofs are given. Then the finite approximation of the problem related to optimization of free vibrations of shells with transverse deformation and rotary inertia is discussed. The varational iteration (MVI) and Bubnov-Galerkin (MB) methods are applied, and their convergence and suitability for application to plates and shells analysis are discussed and numerically evaluated.     

Geometry and Elasticity of Strips and Flowers

We solve several problems that involve imposing metrics on surfaces. The problem of a strip with a linear metric gradient is formulated in terms of a Lagrangian similar to those used for spin systems. We are able to show that the low energy state of long strips is a twisted helical state like a telephone cord. We then extend the techniques used in this solution to two–dimensional sheets with more general metrics. We find evolution equations and show that when they are not singular, a surface is determined by knowledge of its metric, and the shape of the surface along one line. Finally, we provide numerical evidence by minimizing a suitable energy functional that once these evolution equations become singular, either the surface is not differentiable, or else the metric deviates from the target metric.     

Synthesis and characterizations of hollow spheres and nanospheres of Au

Hollow spheres and nanospheres of Au have been prepared by a simple reaction of HAuCl₄·4H₂O, NaOH and (NH₂OH)₂·H₂SO₄ in the presence of gelatin. The role of gelatin and the effect of the temperature of the reaction in producing the spherical particles of Au are discussed. The products were characterized by powder X-ray diffraction (XRD), transmission electron microscopy and UV–Vis absorption spectroscopy. The sizes of the nanospheres of Au were estimated by the Debye–Scherrer formula according to the XRD spectrum. PACS  81.05.Bx; 81.05.Rm; 81.07.-b; 81.16.Be; 81.20.Fw