(Nd1－xGdx)3Fe27.31Ti1.69化合物的结构和磁性

通过X射线衍射和磁性测量等手段研究了(Nd_1-xGd_x)₃Fe_27.31Ti_1.69(0≤x≤0.6)化合物的结构和磁性.X射线衍射测量结果表明Gd替代后并未改变Nd₃(Fe,Ti)₂₉化合物的晶体结构，但引起了晶胞体积收缩.随着Gd含量的增加，化合物的居里温度T_C和室温磁晶各向异性场B_a单调增加，而自旋重取向 关键词： 1-xGd_x)₃Fe_27.31Ti_1.69化合物')" href="#">(Nd_1-xGd_x)₃Fe_27.31Ti_1.69化合物 磁晶各向异性 自旋重取向 磁相图     

R(Fe1-xNix)11.3Nb0.7化合物的磁性

用X射线衍射和磁测量手段研究了Ni部分替代Fe对具有ThMn₁₂结构的Rfe_11.3Nb_0.7(R=Gd,Tb,Dy,Ho,Er和Y）化合物的结构与磁性的影响.研究表明,Ni部分替代Fe不改变晶体结构,但引起了晶胞体积收缩.随着Ni含量的增加,居里温度T_C迅速上升,而饱和磁化强度M_s则单调减小.Ni部分替代Fe还导致了Fe次晶格的轴各向异性的迅速降低和RF_11.3Nb_0.7(R=Tb,Dy,Er)化合物中自旋重取向温度T_sr的变化.T_sr与Ni含量的关系用晶场理论给出了定性的解释. 关键词：     

AgSnO2触头材料在Ni-S共掺杂下的第一原理性计算

该研究采用掺杂的方式对SnO₂的导电性能进行改良,基于密度泛函理论的第一性原理,运用CASTEP软件对单掺杂Ni-SnO₂、S-SnO₂和共掺杂Ni-S-SnO₂的晶格参数、能带结构、电子态密度进行了计算,并对其电荷布居进行了分析.结果表明：S单掺杂时,晶胞体积略微增大;Ni单掺杂时,晶胞体积略微减小;而Ni-S共掺杂时,晶胞体积略微增大但增大幅度小于S单掺杂时的晶胞体积.与未掺杂相比,掺杂使得晶胞禁带减小、杂质能级增多、电子跃迁能减小,使其导电性增强,同时,掺杂使得费米能级附近峰值减小,局域性下降,原子间成键更强,材料更稳定.     

Ba1-xSrxTiO3及Ba0.6-xPbxSr0.4TiO3陶瓷的制备和介温特性研究

用固相反应法制备了Ba_1-xSr_xTiO₃(BST)及Ba_0.6-xPb_xSr_0.4TiO₃(BPST)陶瓷,通过XRD,FESEM和拉曼谱分析了Pb掺杂对Ba_0.6Sr_0.4TiO₃样品的晶格、相变及表面形貌的影响.测试了BST及B 关键词： BST BPST 弥散相 介温特性     

过渡金属Fe，Co，Ni居里点附近热电势的实验研究

测量了纯金属Fe，Co，Ni的热电势发现，在居里点附近热电势随温度的变化关系曲线均呈现先凹后凸的反常现象.由曲线的转折处可确定三个居里温度，即铁磁态居里点T_f，居里点T_C和顺磁居里点θ_p.由曲线可见，金属由铁磁态到顺磁态的相转变，存在一定温度间隔的转变过程，居里温度是这一过程的中间温度.分析曲线表明，温度在T_f与T_C范围有空穴参与导电，说明磁性负载者是d带中的空穴.对于温度在T_C与θ_p范围可能存在短程有序进行了讨论. 关键词： Fe Co Ni 热电势 居里温度     

二元掺杂镧锰氧化物La-Ca-Ba-Mn-O的庞磁电阻特性

用固相反应法制备了二元掺杂的镧锰氧化物La_0.67(Ca_0.6Ba_0.4)_0.33MnO_z(LCBMO)立方多晶体材料,研究了其磁特性和庞磁电阻特性,并与用类似方法制备的一元掺杂的La_0.67Ca_0.33MnO_z(LCMO)及La_0.67Ba_0.33MnO_z(LBMO)的庞磁电阻特性进行了比较.研究表明,LCBMO的居里温度T_C为312K,介于LCMO和LBMO的T_C（分别为280,362K）之间,其金属-半导体转变温度T_p和μ₀H=0.6T下的磁电阻（MR）峰值温度T_m分别为306,298K,接近于其T_C,也介于LCMO和LBMO的T_p和T_m之间.μ₀H=0.6T下,在各自的T_m处,LCMO,LCBMO和LBMO的庞磁电阻值分别达到41%,24.7%和8%,但在室温（300K）处,LCBMO的MR值仍达到20％,远大于LCMO和LBMO的值（分别为2.0％和2.4％）.研究还发现,在温度远低于T_m时,LCMO仍保持一定的磁电阻效应,而LCBMO和LBMO的磁电阻温度降低而增加,这些低温磁电阻特性与材料的结构特征（如晶界和致密度）有关. 关键词：     

钙钛矿Mn基氧化物的电子顺磁共振行为的实验研究

借助电子顺磁共振技术,对Mn³⁺/Mn⁴⁺=2∶1和1∶1的两个典型体系 在居里温度T_C以上温区的顺磁行为进行了实验研究.实验表明,存在一特征温度 T_min,通过该温度将T_C以上的磁行为分成两个明显可区分的温区： 在T_min以上,共振谱由一对称的单线构成,Lande 因子g值与温度无关且接近 自由电子的值(～20023),线宽随温度呈线性变化等;而在T_{min关键词： 稀土锰氧化物 电子顺磁共振 交换变窄 自旋-自旋相互作用 自旋-晶格相互作用}     

R3(Fe,Mo)29Nx的晶体学特性和内禀磁性

研究了R₃(Fe,Mo)₂₉(R=Ce,Nd,Sm,Gd,Tb,Dy,Y)氮化物的晶体学特性和内禀磁性.主要研究内容为：氮化对R₃(Fe,Mo)₂₉金属间化合物的点阵参数、居里温度T_C、饱和磁化强度σ_s和各向异性场B_a的影响. 关键词：     

溶胶-凝胶法制备的Ba0.8Sr0.2TiO3薄膜的结构及铁电性质研究

采用0.05mol/L的前驱体溶液,利用溶胶-凝胶法成功制备了室温下具有优良铁电性质的Ba_0.8Sr_0.2TiO₃ (BST)薄膜.X射线衍射分析表明,制得的BST薄膜室温下呈四方相,场发射扫描电子显微观测显示BST薄膜表面平整、致密、无裂纹出现,薄膜晶粒呈柱状结构、尺寸在150nm左右.电学测量表明制备的BST薄膜室温下具有优良的铁电性能.薄膜的剩余极化P_r约为35μC/cm²,矫顽电场E关键词：     

氧压对Ba0.6Sr0.4TiO3薄膜晶格常数的影响及BaTiO3/Ba0.6Sr0.4TiO3超晶格的制备

采用脉冲激光沉积(PLD)技术,经一系列的优化实验成功地制备了BaTiO₃(BT)和Ba_0.6Sr_0.4TiO₃(BST)单层膜.X射线衍射分析表明,在LaAlO₃(001)单晶平衬底上生长的BT和BST薄膜都是沿[001]取向的近外延生长.且随着氧压在10^-3—25 Pa范围内逐渐增大,BST薄膜的晶格常数与氧压之间近似满足Boltzmann函数关系.其次,在此优化条件下还 关键词： 超晶格 晶格常数 激光感生热电电压 脉冲激光沉积     

On the spectral frequency distribution of translational vibrations in a face-centered cubic lattice of the C60 fullerite

The spectral frequency distribution g(ω) of translational lattice vibrations in the face-centered cubic phase of the C₆₀ fullerite at T = 300 K is calculated by the superposition method. The contribution from the translational vibrations to the heat capacity C _V of the C₆₀ fullerite and the x-ray characteristic temperature gJ_R entering into the exponent of the Debye-Waller factor are determined using the calculated frequency distribution g(ω). The results of the calculations are in good agreement with experimental data. It is noted that the librational and intramolecular lattice vibrations observed in the C₆₀ fullerite do not contribute significantly to the temperature-induced decrease in the x-ray diffraction intensity at T = 300 K. The Grüneisen parameters γ_mod calculated from the x-ray diffraction data are consistent with the thermodynamic Grüneisen parameters γ_lat at temperatures T ≤ 80 K but substantially exceed those at T ≈ 300 K. New x-ray diffraction experiments are proposed for independently determining the anomalously large negative values of the parameter γ₀, which is actually an orientational analog of the Grüneisen parameter.     

Yb-Ba-Cu(O,F)体系超导电性、点阵常数和热学特性的研究

本文叙述了Yb-Ba-Cu(O,F)体系超导体的制备,点阵常数、单胞体积以及T_c随F加入量和O含量的变化。实验结果表明,在YbBa₂Cu₃O_7-x-δF_2x(0≤x≤1)体系中,O含量越低,T_c越高,点阵常数和单胞体积就越大。晶体结构分析结果证明点阵常数a与b的差值愈大的正交相结构,其超导性能愈好,表明一维Cu-O链结构对高T_c超导机制有重要作用。 关键词：     

Magnetic entropy change and magnetic phase transition of LaFe11.4Al1.6Cx （x=0-0.8） compounds

The unit cell volume and phase transition temperature of LaFe11.4Al1.6Cx compounds have been studied. The magnetic entropy change, refrigerant capacity and the type of magnetic phase transition are investigated in detail for LaFe11.4Al1.6Cx with x=0.1, All the LaFe11.4Al1.6Cx （x=0-0.8） compounds have the cubic NaZn13-type structure. The addition of carbon atoms brings about a considerable increase in the lattice parameter. The bulk expansion results in the change of phase transition temperature （Tc）, Tc increases from 187K to 269 K with x varying from 0.1 to 0.8, Meanwhile an increase in the lattice parameter can also cause a change of the magnetic ground state from antiferromagnetic to ferromagnetic. Large magnetic entropy change IASI is found over a large temperature range around Tc and the refrigerant capacity is about 322J/kg for LaFe11.4Al1.6C0.1. The magnetic phase transition belongs in weakly first-order one for x=0.1.     

Dielectric and piezoelectric properties of (1−x)Ba0.7Sr0.3TiO3−xBa0.7Ca0.3TiO3 perovskites

Dielectric and piezoelectric properties of (1?x)Ba_0.7Sr_0.3TiO₃?xBa_0.7Ca_0.3TiO₃ (BST?xBCT) (x=0.2–0.9) perovskite ceramics have been investigated. BCT has fully incorporated into BST lattice, forming a complete perovskite solid solution, whose lattice constant χ decreases almost linearly with increase in x from 0.2 to 0.4, while showing an anomalous expansion at 0.4<x≤0.6. This, together with the deviation of tetragonal–orthorhombic phase transition temperature (T_O–T) from the linear relation T_O–T (K)=?103.7x+239.3 at x=0.5, suggests that a small amount of Ca²⁺ has substituted for Ti⁴⁺. Curie temperature T_C increases linearly with increase in x from 0.2 to 0.9, which is mainly contributed to the increase of the Ba/Sr ratio. The calculated degree of relaxation (γ) is in the range of 1.41–1.53, indicating that the BST–xBCT ceramics are ferroelectric materials with diffuse phase transition. Strain and piezoelectric constant (d₃₃) decrease with increasing x, whereas planar electromechanical coefficient (k_p) reaches a maximum (17.0%) at x=0.6.     

Exchange interaction in GdGa from first-principles

The electronic structure and magnetic properties for GdGa have been studied from a first-principles density functional calculation. The energy band structure has been calculated in a local spin density approximation (LSDA), plus Hubbard U approach (LSDA+U). For Gd atoms, seven spin up 4f bands are fully occupied and situated at the bottom of Ga 4s states, while the spin down 4f hole levels are completely unoccupied and well above the Fermi level (E_f). The p- and d-like states dominate at E_f. The calculated magnetic moment is 7.37μ_B per formula unit (f.u.) and is not sensitive to the change of the unit cell volume. The effective exchange parameters, J₀, decrease from 2.6 to 0.9 mRy with increasing lattice volume from 35.7 to 55.3 Å³/f.u., resulting in a pressure induced enhancement of the Curie temperature (T_C). With the experimental lattice constants, the calculated mean field T_C is 187 K, in good agreement with the experimental value (T_C^exp.=183 K).     

Einfluß des elektrischen Feldes auf die fundamentale Absorptionskante von Bariumtitanat

The shift of the absorption edge of BaTiO₃ caused by an electric field has been measured in function of temperature and field strength. It shows a sharp maximum at the Curie pointT _C near 120°C, a linear field dependence belowT _C, and a quadratic field dependence aboveT _C. Furthermore this shift has the opposite sign to the Franz-Keldysh effect and is one or two orders of magnitude larger. This new effect is correlated with the electric polarization and is not induced by electromechanical lattice deformations. It is shown in a simple band model, that the relative displacement between the titanium and the oxygen sublattices induces an increase of the band gap, which agrees qualitatively with the experimental results.     

Bulk A15, high TC Nb3Si synthesized by shock compression

A shock wave compression technique has been used to convert bulk quantities of Nb₃Si into the A15 phase. The recovered material has a lattice parameter of 5.091 ± 0.006 Å. It also has an inductive T_C of 18.6 K and shows a large specific heat transition at 18.0 K.     

On the effective Debye temperatures of the C60 fullerite

The effective Debye temperatures Θ_eff determined for solids by different physical methods have been analyzed and compared. Attention has been focused on the original parameter of the Debye theory of heat capacity, i.e., the translational calorimetric Debye temperature Θ _c ^t (0), and the X-ray Debye temperature Θ _x in the framework of the Debye-Waller theory for the C₆₀ fullerite. It has been established that the true Debye law T ³ is satisfied for the C₆₀ fullerite over a very narrow range of temperatures: 0.4 K ≤ T ≤ 1.8 K. For this reason, the experimental Debye temperatures Θ _c ^t (0) obtained for the C₆₀ fullerite by different authors in the range T > 4.2 K are characterized by a large scatter (by a factor of ∼5). It has been revealed that the value Θ _c ^t (0) = 77.12 K calculated in this paper with the use of the six-term Betts formula from the harmonic elastic constants $ \tilde C_{ijkl} $ \tilde C_{ijkl} of the C₆₀ single crystal in the limit T = 0 K is closest to the true Debye temperature. It has been demonstrated using the method of equivalent moments that the real spectral frequency distribution of translational lattice vibrations g(ω) for the C₆₀ fullerite deviates from a parabolic distribution. The effective Debye temperatures Θ_eff involved in applied problems of thermodynamics of crystals and elastic scattering of different radiations from lattice vibrations have been determined. The quantitative measure of anharmonicity of translational and librational lattice vibrations of the C₆₀ fullerite has been determined. This has made it possible to empirically evaluate the lattice thermal conductivity κ of the C₆₀ fullerite at T ≈ 300 K: κ(300) = 0.80 W (m/K), which is in good agreement with the experimental thermal conductivity κ_exp = 0.78 W (m/K) at T ≈ 250 K.     

Coupling of orientational and translational modes in solid C60 and C70

The orientational phase transitions in solid C₆₀ and C₇₀ are accompanied by quite different anomalies in the crystalline strains. In solid C₆₀ the phase transition Fm3m→Pa3 is primarily an orientational effect (antiferro-rotational), which is driven by the condensation of orientational modes belonging to X₅ ⁺ irreducible representation (irreps) of Fm3m. These modes are the primary order parameters (oops) and their number is equal to the number of irreps of T_2g and T_1g symmetry within the manifolds under consideration. Taking into account irreps up to the manifold 1=12, we have studied the rotation-rotation-translation (RRT) coupling between the oops and the lattice displacements. We have investigated the resulting lattice contraction and the change of the elastic constant c₁₁ at the phase transition. In solid C₇₀ (fcc-phase) we investigate the bilinear coupling of orientational fluctuations of T_2g symmetry to transverse acoustic lattice displacements. This coupling is the driving mechanism for the ferroelastic phase transition Fm3m → R3m. Finally we investigate the transition from the rhombohedral phase to a low temperature monoclinic phase. This transition in antiferro-rotational.     

Influence of carbon concentration on structural, magnetic and electrical transport properties for antiperovskite compounds AlCxMn3

The structural, magnetic and transport properties of the antiperovskite AlC_xMn₃ (1.0≤x≤1.4) are investigated. It is found that the lattice parameter a increases monotonously with nominal carbon concentration x. The Curie temperature T_C increases with increasing x from 1.0 to 1.1 and then decreases with further increasing x. The highest T_C value is 364 K, about 70 K higher than that of stoichiometric AlCMn₃ reported previously. This may be attributed to a competition between the lattice expansion and the strong Mn 3d-C 2p hybridization. Below 100 K, the resistivity can be well described as ρ(T)=ρ₀+AT², corresponding to the electron-electron scattering. A increases with x, suggesting certain changes in the electronic structure, e.g. carrier density. Above 250 K, all ρ(T) curves depart from the linear dependence on temperature and seem to take on a tendency towards saturation.