爆炸磁通量压缩发生器设计的几点考虑

 通过分析提出了爆炸磁通量压缩发生器(MFCG)接触磁通损失的模型和MFCG电感线圈设计的基本原则,并在MFCG设计中得到应用和实验检验。     

磁性离子液体中聚乙撑二氧噻吩/多壁碳纳米管纳米复合材料的球磨法制备及表征

以磁性离子液体1-丁基-3-甲基咪唑四氯化铁盐([bmim]FeCl₄)为介质, 将多壁碳纳米管(MWCNTs)机械球磨分散在其中形成[bmim]FeCl₄/MWCNTs凝胶后, 加入乙撑二氧噻吩(EDOT)单体, 利用阴离子 的氧化性进行原位聚合, 球磨法制备了均匀包覆不同含量MWCNTs的聚乙撑二氧噻吩/多壁碳纳米管(PEDOT/MWCNTs)纳米复合材料. 并以傅里叶红外光谱(FT-IR)、扫描电镜(SEM)和透射电镜(TEM)对PEDOT/MWCNTs的结构与形貌进行了表征|在0.5 mol/L硫酸溶液中, 用循环伏安测试(CV)研究了PEDOT/MWCNTs的电化学行为|采用四探针仪测定了PEDOT/MWCNTs的电导率|热重分析(TGA)研究了PEDOT/MWCNTs的热稳定性. 结果表明, PEDOT 纳米颗粒均匀包覆于MWCNTs表面, 形成了核壳结构|PEDOT与MWCNTs之间的共轭作用随着MWCNTs含量的增加而增强. MWCNTs的质量分数为30%的PEDOT/MWCNTs的电导率出现峰值, 达到7.46 S/cm, 且电化学活性最好. MWCNTs的质量分数为10%时, PEDOT/MWCNTs的热稳定性相对于PEDOT显著提高.     

Nd-Fe-B/FeCo多层纳米复合膜的结构和磁性

制备了Nd₂₈Fe₆₆B₆/Fe₅₀Co₅₀多层纳米复合磁性薄膜，对溅射态和650℃退火处理15 min试样的相成分分析和微结构的观察显示，溅射态薄膜呈非晶态，经650℃退火处理15 min后，薄膜主要相成分为硬磁性Nd₂Fe₁₄B相和软磁性相FeCo(110)相.Nd₂Fe₁₄B相呈柱状，其易磁化c轴垂直于膜面，尺寸约10 nm.在硬磁性相和软磁性相之间存在少量富Nd相和非晶态，富Nd相大小约7 nm.磁性测量和分析表明，1)该系列薄膜退火态具有垂直于膜面的磁晶各向异性.2)对于固定厚度(10 nm)层Nd-Fe-B和不同厚度(t_FeCo=1—100 nm)层FeCo多层纳米复合膜,剩磁随软磁相FeCo 厚度的增加快速增加，而矫顽力则减小.当t_FeCo=5 nm时，最大磁能积达到200 kJ/m³. 3)硬磁相Nd-Fe-B层和软磁相FeCo层之间交换耦合导致剩磁和磁能积增强. 关键词： Nd-Fe-B/FeCo多层纳米复合膜 交换耦合 磁各向异性     

二维磁结构的扫描隧道显微术研究

文章介绍了近年来利用扫描隧道显微术（STM）对表面和薄膜磁结构的研究进展。二维或表面磁结构可以通过在非磁性单晶上外延磁性单原子层薄膜形成，也可以在清洁的磁性单晶表面形成。利用磁性的STM针尖可以观测到原子分辨的表面磁结构。这将增进人们从纳米尺度对磁性的理解，并推动磁电子学的发展。     

Cooling Curve of Strange Star in Strong Magnetic Field

In this paper, firstly, we investigate the neutrino emissivity from quark Urca process in strong magnetic field. Then, we discuss the heat capacity of strange stars in strong magnetic field. Finally, we give the cooling curve in strong magnetic field. In order to make a comparison, we also give the corresponding cooling curve in the case of null magnetic field. It turns out that strange stars cool faster in strong magnetic field than that without magnetic field.     

Heusler合金Fe2CrGa的磁性与结构

采用KKR-CPA-LDA方法研究了不同混乱占位时Fe₂CrGa合金基态的电子结构和磁结构. 基态能量表明Fe₂CrGa合金更倾向于形成Hg₂CuTi型有序结构,而不是L2₁结构. 能态密度(DOS)分析进一步揭示受晶体场影响的磁性原子内部交换作用是使Fe₂CrGa合金形成 Hg₂CuTi型有序结构的主要原因.测量了不同热处理所得Fe₂CrGa合金的居里温度和分子磁矩, 发现原子占位有序化可以在137K温度范围内调控合金的居里温度.分子磁矩随有序化占位也有相应变化, 分布在2.28μ_B/f.u.—2.48μ_B/f.u.之间.理论计算和实验对比可证明Fe₂CrGa合金是Hg₂CuTi型Heusler合金.     

铁基Heusler合金Fe2Co1-xCrxSi的结构、磁性和输运性质的研究

基于多种实验手段和能带计算的方法, 对四元合金Fe₂Co_1-xCr_xSi的晶体结构、 磁性、输运性质及能带结构进行了研究. 研究发现, 随着Cr的增加, 合金Fe₂Co_1-xCr_xSi保持了高度有序结构, 逐渐从Hg₂CuTi结构的Fe₂CoSi 过渡到L2₁结构的Fe₂CrSi; 由于次晶格网络的破坏, 居里温度逐渐下降; 系列合金的分子磁矩呈现线性下降, 符合半金属特性; 剩余电阻比率与原子占位有序程度密切相关, 呈现两端大、 中间小的特点. 在Cr替代Co的过程中, 材料半金属能隙逐渐打开, 表现半金属特征. 同时费米能级从Fe₂CoSi半金属能隙的价带顶上移至Fe₂CrSi能隙的导带底. 最大的能隙宽度出现在x= 0.75处, 这表明四元合金有可能成为具有更高自旋极化率和更强抗干扰能力的自旋电子学材料.     

外磁场中三维混合自旋Ising系统的磁学性质

用Monte Carlo方法研究了外磁场中自旋-1与自旋-3/2混合三维Ising系统的磁性质.结果表明,系统磁矩随晶场的增强阶梯式减小,由于能量简并的解除,外磁场存在时磁矩随晶场变化的台阶数目增多.当单离子晶场DA与DB在同一台阶区域取值时,系统磁矩随外磁场的增强平缓地趋于饱和值,而当二者在不同台阶区域取值时,系统磁矩随外磁场的变化则表现出了较明显的台阶结构.单离子晶场DA与DB对于系统无序相的影响是不同的.     

MnIII2 (5-Rsaltmen)2NiII(pao)2(L)]2+: an S(T)=3 building block for a single-chain magnet that behaves as a single-molecule magnet

Mn(III)-Ni(II)-Mn(III) linear-type trinuclear complexes bridged by oximate groups were selectively synthesized by the assembly reaction of [Mn2(5-Rsaltmen)2(H2O)2](ClO4)2 (5-Rsaltmen2-=N,N'-(1,1,2,2-tetramethylethylene) bis(5-R-salicylideneiminate); R=Cl, Br) with [Ni(pao)2(phen)] (pao-=pyridine-2-aldoximate; phen=1,10-phenanthroline) in methanol/water: [Mn2(5-Rsaltmen)2Ni(pao)2(phen)](ClO4)2 (R=Cl, 1; R=Br, 2). Structural analysis revealed that the [Mn(III)-ON-Ni(II)-NO-Mn(III)] skeleton of these trimers is in every respect similar to the repeating unit found in the previously reported series of 1D materials [Mn2(saltmen)2Ni(pao)2(L1)2](A)(2) (L(1)=pyridine, 4-picoline, 4-tert-butylpyridine, N-methylimidazole; A=ClO4-, BF4-, PF6-, ReO4-). Recently, these 1D compounds have attracted a great deal of attention for their magnetic properties, since they exhibit slow relaxation of the magnetization (also called single-chain magnet (SCM) behavior). This unique magnetic behavior was explained in the framework of Glauber's theory, generalized for chains of ferromagnetically coupled anisotropic spins. Thus, in these 1D compounds, the [Mn(III)-ON-Ni(II)-NO-Mn(III)] unit was considered as an S(T)=3 anisotropic spin. Direct-current magnetic measurements on 1 and 2 confirm their S(T)=3 ground state and strong uniaxial anisotropy (D/k(B) approximately -2.4 K), in excellent agreement with the magnetic characteristic deduced in the study on the SCM series. The ac magnetic susceptibility of these trimers is strongly frequency-dependent and characteristic of single-molecule magnet (SMM) behavior. The relaxation time tau shows a thermally activated (Arrhenius) behavior with tau0 approximately 1x10(-7) s and Delta(eff)/k(B) approximately 18 K. The effective energy barrier for reversal of the magnetization Delta(eff) is consistent with the theoretical value (21 K) estimated from |D| S2T. The present results reinforce consistently the interpretation of the SCM behavior observed in the [Mn2(saltmen)2Ni(pao)2(L1)2](A)2 series and opens new perspectives to design single-chain magnets.