G-M型脉管制冷机电磁阀和旋转阀配气系统的比较实验研究

配气系统作为G-M型低温制冷机的重要部件,对制冷性能有较大影响。基于1台自行研制的单级G-M型脉管制冷机,对其电磁阀配气系统和旋转阀配气系统进行了比较实验研究,重点研究了频率、时序对制冷性能的影响。实验结果表明,增大电磁阀通道数目可以在一定程度上提高压比从而提高制冷性能,但其在制冷性能方面与旋转阀相比仍存在差距。从电磁阀和旋转阀结构方面探讨了造成性能差异的主要原因。

真空退火Fe/Pt多层膜的结构和磁性

采用直流磁控溅射方法制备了Fe/Pt多层膜和FePt单层薄膜,并在不同温度下真空热处理得到了有序相L10-FePt薄膜.研究表明,Fe/Pt多层膜化可以降低FePt薄膜有序相的转变温度.[Fe(1.5nm)/Pt(1.5nm)]13薄膜在350℃热处理后,有序度已经增加到0.6,而且矫顽力达到了501kA/m.多层膜化促进有序化在较低的温度下进行,这主要是因为原子在多层膜界面扩散更快.

磁控溅射方法制备(CoCr/Pt)20纳米多层膜及表征

采用磁控溅射方法制备了性能优良的以Pt为缓冲层的(CoCr/Pt)20纳米多层膜,研究了溅射气压对(CoCr/Pt)20纳米多层膜的微结构和磁性的影响.结果表明,Ar溅射气压对(CoCr/Pt)20纳米多层膜的微结构、垂直磁各向异性和矫顽力有很大的影响.所有样品的有效各向异性常数Ke.＞0,具有垂直磁各向异性.X射线衍射结果显示,小角衍射峰很锐,样品有良好的周期性层状结构.随着Ar溅射气压增加,样品垂直膜面的矫顽力增加,但样品有效磁各向异性常数减小.原子力显微镜照片显示,随着Ar溅射气压增加,其表面平均晶粒尺寸和粗糙度均增加,这是导致多层膜的垂直矫顽力增加和有效磁各向异性常数减小的因素.

SEMI-EMPIRICAL CALCULATION FOR ELECTRONIC STRUCTURE OF C60 CLUSTER BY MOLECULAR DYNAMICS AND MNDO APPROACH

The electronic structure for C 60 was semi empirically investigated by using MD (molecular dynamics) and MNDO (modified neglect of diatomic overlap) approach of quantum chemistry.Especially,taking both σ and π orbitals into account,one electron energy levels,those symmetries and π orbital occupancies as well as electron excitation energies for different select rules,cohesive energy,ionization energies and electronic affinity forces were calculated.The obtained molecular orbital ratio shows a wide separation of σ and π types,and near HOMO and LUMO levels there are π orbitals mainly.The calculated semi empirical calculation results are in good agreement with experimental and ab initio calculation data.

ab initio CALCULATION FOR THE ELECTRONIC STRUCTURE OF GaAs/Al_xGa_(1-x) As SUPERLATTICES: CONJUGATE GRADIENT APPROACH

The electronic structure of GaAs/Al xGa 1-x As superlattices has been investigated by an ab initio calculation method—the conjugate gradient (CG) approach.In order to determine that,a conventional CG scheme is modified for our superlattices:First,apart from the former scheme,for the fixed electron density n(z),the eigenvalues and eigenfunctions are calculated,and then by using those,reconstruct the new n(z).Also,for every k z,we apply the CG schemes independently.The calculated energy difference between two minibands,and Fermi energy are in good agreement with the experimental data.

高温超导带材用YBCO前驱体的热分解非等温动力学研究

基于金属有机物沉积法制备YBCO高温超导带材的研究现状,为了探索涂层导体超导层的快速制备工艺,开展了超导层前驱体的热分解动力学研究。在氩气条件下利用同步热分析仪获得丙酸为溶剂、乙酸盐为溶质的前驱体热分解过程的TG-DTG-DSC-MS曲线,采用普适积分法、微分法以及多重速率扫描Kissinger法相结合的方式确定YBCO超导相合成反应的机理和相关动力学参数。结果表明,从室温~900℃的升温过程中,前驱体的热分解反应可分为4个阶段。其中,第4阶段的YBCO超导相合成反应过程服从随机成核和随后生长的机理模型(n=2),热分解反应动力学补偿效应为lnA=0.120E-2.699。

ab initio CALCULATION FOR THE ELECTRONIC STRUCTURE OF GaAs/AlxGa1-x As SUPERLATTICES: CONJUGATE GRADIENT APPROACH

The electronic structure of GaAs/Al xGa 1-x As superlattices has been investigated by an ab initio calculation method—the conjugate gradient (CG) approach.In order to determine that,a conventional CG scheme is modified for our superlattices:First,apart from the former scheme,for the fixed electron density n(z),the eigenvalues and eigenfunctions are calculated,and then by using those,reconstruct the new n(z).Also,for every k z,we apply the CG schemes independently.The calculated energy difference between two minibands,and Fermi energy are in good agreement with the experimental data.

多层膜[Co_(85)Cr_(15)/Pt]_(20)的磁性、垂直磁记录特性和微结构的关系

采用磁控溅射法制备了性能优良的以Pt为缓冲层的 [Co85Cr1 5 Pt]2 0 多层膜 ,研究了溅射气压对 [Co85Cr1 5 Pt]2 0 多层膜微结构和磁性的影响 .研究结果表明 ,Ar溅射气压对 [Co85Cr1 5 Pt]2 0 多层膜的微结构、垂直磁各向异性和矫顽力有重要的影响 .所有样品的有效各向异性常数Keff>0 ,具有垂直磁各向异性 .随着Ar气压增加 ,样品垂直膜面的矫顽力增加 ,但样品有效磁各向异性常数减小 .在 1 6PaAr溅射的Pt(2 0nm) [(Co85Cr1 5(0 5nm) Pt(1 5nm) ]2 0 多层膜 ,矫顽力达到 130kA m ,具有垂直各向异性 ,可作为垂直磁记录介质 .原子力显微镜照片显示 ,随着Ar气压增加 ,表面平均晶粒尺寸和粗糙度均增加 .这是导致多层膜的垂直矫顽力增加和有效磁各向异性常数减小的原因 .

利用[Fe/Pt]_n多层膜降低L1_0-FePt有序化温度

采用直流磁控溅射方法制备了Fe Pt多层膜和FePt单层薄膜 ,再经不同温度真空热处理得到了有序相L10 FePt薄膜 .通过x射线衍射谱和磁性研究表明 ,FePt单层薄膜需要在 5 0 0℃以上热处理 ,才能开始有序化转变 ,而Fe Pt多层膜可以降低FePt薄膜有序化温度 .[Fe(1 5nm) Pt(1 5nm) ]1 3薄膜在 35 0℃热处理后 ,有序度已经增加到 0 6 ,相应矫顽力达到了 5 0 1kA m .多层膜化促进有序化在较低的温度下进行 ,这是由于热处理过程中多层膜界面的消失提供了有序化过程额外的驱动力 .