5-氟胞嘧啶气相及水助质子转移异构化的理论研究

采用密度泛函B3LYP/6-311G**方法,对6种5-氟胞嘧啶异构体孤立分子的稳定性及质子转移引起的酮式-烯醇式、氨基式-亚胺式互变异构反应机理进行了计算研究,获得了零点能、吉布斯自由能及质子转移过程的反应焓、活化能、活化吉布斯自由能和速率常数等参数.计算结果表明,气相中烯醇-氨基式FC4是最稳定的异构体.分子内质子转移设计了FC1→FC2和FC1→FC6两条通道,分别标记为P(1)和P(2),各通道速控步骤的活化能和速率常数分别为155.9 kJ·mol-1,4.70×10-15 s-1和173.1 kJ·mol-1,1.41×10-18 s-1.水助催化时,相应通道P(3) 和P(4) 速控步骤的活化能和速率常数分别为51.0 kJ·mol-1,1.41×103 s-1和88.2 kJ·mol-1,4.53×10-3 s-1.可见,水分子的加入极大地降低了质子转移的活化能垒.另外发现,水分子参与形成协同的双质子转移机理比水助单质子转移机理更利于降低活化能垒.     

硝酸盐和氯化物中结晶水的荷移光度法测定研究

实验发现,含有结晶水的无机盐在有机溶剂中同5-(4-二甲胺基苄叉)绕丹宁会发生诱导荷移反应,以致于吸收光谱发生变化.基于此试验了各种影响定量测定硝酸盐和氯化物中水分的因素,确定了最佳条件.方法可用于测定测定硝酸盐和氯化物中水分的水分.     

滑带土动力学性质试验研究

为了研究地震高烈度区老滑坡的复活变形原因,本文对滑坡滑带土的动力学特性进行了系列研究。本次试验采用扰动土样,制样基本物理指标按滑带土的现场测试指标确定,在不固结不排水条件下,运用MTS810Teststar程控液压伺服土动三轴仪对单个样品逐级放大动应力的分级试验方法进行。侧向压力 (围压 )分别采用 100kPa、20 0kPa、300kPa三级,通过施加轴向振动荷载 (力 )模拟地震作用,振动波形为正弦波,频率为 1Hz,振幅随试样性质确定。研究结果表明,滑带土在动荷载作用下的动力学性质与其静荷载作用下的力学性质有着较大的差异,主要表现在滑带土的动应力与动应变关系的非线性、滞后性及变形积累特点,动弹性模量与动强度的显著降低以及动阻尼比的显著增大特性。这揭示了动力作用下的滑坡复活原因之一,同时为滑坡稳定性评价和动力作用下的变形机制模拟分析提供了基础资料,也为分析滑带土动力本构模型提供了基本内容。     

InN量子点的液滴外延及物性表征

由于1. 55μm波段广泛应用于通信领域,为了探索不同生长温度对InN量子点的形貌影响,并且实现自组装InN量子点在1. 55μm通信波段的发光,对InN量子点的液滴外延及物性进行了相关研究。首先利用射频等离子体辅助分子束外延(PA-MBE)技术在GaN模板上,采用液滴外延方法在3种温度下生长了InN量子点结构。生长过程中靠反射高能电子衍射(RHEED)对样品进行原位监控。原子力显微镜(AFM)表征结果表明随着生长温度升高,量子点尺寸变大,密度减小。在生长温度350℃和400℃下,观测到了量子点;当温度高于450℃时,未观测到InN量子点。当生长温度为400℃时,量子点形貌最好,密度为6×10~8/cm~2,对400℃下生长的InN量子点进行了变温PL测试,成功得到InN量子点在1. 55μm波段附近的光致发光,并且随着测试温度的升高,量子点的发光峰位发生了先红移后蓝移最后又红移的S型曲线变化,这种量子点有望在未来应用于量子通信领域。     

两种消解法测定烟用接装纸中铬、铅和镉的比较

采用两种不同的样品消解法消解烟用接装纸样品,并采用电感耦合等离子体-发射光谱仪测定了其中的3种有害元素铬、铅和镉的含量,通过几组样品的测定结果对比,证明两种样品前处理方法均可用于实际样品测定.     

铝-钨丝混编阵的Z-箍缩实验研究

利用铝丝和钨丝混合编制的丝阵作为Z箍缩的负载，在俄罗斯Kurchatov研究所的S300强流装置上对其Z箍缩过程进行了实验研究，并与纯铝丝阵和纯钨丝阵的实验结果进行了比较.不同材料组成的丝阵的Z箍缩x射线能谱之间有明显差异，混编丝阵的铝K壳层的x射线辐射强度比纯铝丝阵的弱，在纯钨丝阵Z箍缩中没有发现波长小于1.6nm的线辐射.混编丝阵Z箍缩的x射线发光区域比纯铝丝阵的小，但比纯钨丝阵的大,混编丝阵的x射线产额比纯铝丝阵的大，但比纯钨丝阵的略低.在驱动电流为2.5—2.8MA条件下，Z箍缩的径向收缩比为4—5，x射线辐射脉冲脉宽为25ns左右，峰值为0.3—0.5TW，总能量为10—20kJ.激光探针的阴影像显示了丝阵等离子体形成的细致过程，还表明了等离子体的边界面不够清晰，其不稳定性有明显的发展，内部有丰富的结构. 关键词： Z箍缩 混编丝阵 S300强流装置     

通信网络动态优化与控制研究

引入现代控制科学,建立了一般通信网络的状态控制模型与目标控制模型,利用庞特李亚金极大值原理,研究通信网络最优控制的基本条件、本质意义与一般实现途径,证明了哈密尔顿函数协状态变量稳定解的性质及其在通信网动态优化与控制中的作用与地位。     

Effect of Temperature on the Void Growth in Pure Aluminium at High Strain-Rate Loading

With the environment temperature varying from 273 K to 773 K, the dynamic process of void growth in pure aluminium at high strain-rate loading is calculated based on the dynamic growth equation of a void with internal pressure. The result shows that the effect of temperature on the growth of void should be emphasized. Because the initial pressure of void with gas will increase and the viscosity of materials will decrease with the rising of temperature, the growth of void is accelerated. Furthermore, material inertia restrains the growth of void evidently when the diameter exceeds 10 μm. The effect of surface tension is very weak in the whole process of void growth.     

Measurement and Analysis of Spall Characteristics of High-Pure Aluminium at One-Dimensional Strain Loading

With an impact velocity varying from 196.9m/s to 317.9m/s and ratios of flyer/sample thickness of 2：4 and 3：6, the free-surface velocity profiles of the shock compressed high purity aluminium （HPA 99.999%） samples are measured with a velocity interferometer system for any reflector. Based on the vibrating features of the velocity profiles, the damage behaviour of HPA is analysed. The results indicate that the vibrating amplitude increases with increasing shock stress, and the subsequent reverberations describing the spall become more obvious. When the shock stress in the material is below a critical or smaller than the threshold level, the free-surface velocity profile replicates virtually the form of the compression pulse inside the sample. When the impact stress exceeds a critical value （1.4 GPa）, the micro damage would appear, and the free-surface velocity profile changes significantly, showing a series of short-duration reverberations in the profile. When the impact stress exceeds the threshold of damage, a compressive disturbance called the ＂spall pulse＂ appears in the free-surface velocity profile, and the subsequent reverberation becomes regular again. The measured spall strength of HPA is much higher than those of commercially pure aluminium reported in many references. In addition, the strength of HPA is similar to that of single-crystal aluminium.     

VCSEL with reticular electrode and larger emitting aperture and its optoelectronic characteristics

The enlargement of the emitting aperture is usually one of the important methods of increasing vertical- cavity surface-emitting laser （VCSEL） optical output power. However, in a VCSEL with a larger aperture, the inhomogeneity in the injected current often causes inhomogeneous or even no emission. To solve this problem and to increase VCSEL output power, as well as to improve its thermal characteristics, we develop a new type of injected VCSEL with a larger aperture and a reticular electrode, where the conventional circular injection electrode of the P side is turned into a reticular one, and the heat sink is on the N side. The tests of the new VCSEL show an improvement in homogeneity in not only the injected current but also the emission intensity. The optical output power is also considerably increased, and the device optoelectronic performance is improved.