Characterization of ZnO:AI films deposited by r.f.magnetron-sputtering at low temperature

Transparent conducting ZnO:AI thin films with good adhesion and Iow resistivity have been prepared on organic substrates and Coming 7059 glass substrates by r.f. magnetron-sputtering technique at Iow substrate temperature (25-210℃). Structural and photoelectric properties of the deposited films are investigated. The deposited films are polycrystalline with hexagonal structure and a preferred orientation with the c-axis perpendicular to the substrate. Only the (002) peak is observed.High quality films with resistivity as Iow as 1.0 x 10- 3Ω@ cm and 8.4 x 10- 4Ω@ cm, the average transmittance over 74% and 85% in the wavelength range of the visible spectrum have been obtained on different substrates.     

新型全光纤弹速测量系统

探索了一种新型低成本的基于激光光束反射原理的全光纤速度传感器，并组成了弹丸速度测量系统。AFOBR测速系统的工作原理如图l所示。半导体激光器发出的激光通过光纤引导照射在被测物体的表面并经物体表面反射，部分反射光反射回同一根光纤并传送到光电探测器上产生光电流，光电流的大小与反射光的强度基本成正比，而反射光强是光纤端面到物体表面距离和物体表面反射率的函数。当子弹到达测量区域时，子弹外径尺寸和弹体材料反射率变化引起光电探测器输出信号的变化，在不同的位置布置同样的光纤传感器，即可进行速度测量。     

二次谐波系统在浑沌态下的光子统计

数值分析了调制泵浦作用下的二次谐波产生系统的浑沌动力学行为.考虑到混沌运动的遍历性,提出一种研究浑沌态光场光子统计的数值方法,即通过数值积分求解系统动力学方程估计光子数的系统平均.运用这一方法于二次谐波系统,计算了其在浑沌态下的光子统计分布,结果表明是一种超Poisson分布.     

Conservation Laws in sine—Gordon Equation

There are two conservation quantities needed to derive conservation laws of sine-Gordon equation in a frame of laboratory reference.one of them could be derived easily with a standard process,but the other could not .After the gauge transformation e^-iθσ2/2is introduced,we simply obtain the other one without any questionable assumption.     

水雾化制备Fe74Al4Sn2P10C2B4Si4非晶合金粉末及其磁粉芯性能研究

采用水雾化方法制备Fe7Al4Sn2P10C2B4Si4合金粉末,研究发现该合金具有强的非晶形成能力和高热稳定性,在粉末粒度小于400目时可以形成非晶态合金.采用该非晶粉末制备的磁粉芯在高频下品质因数显著高于MPP粉芯,说明该磁粉芯高频损耗较低.分析表明,非晶合金磁粉芯高频下损耗低的主要原因是电阻率较高.     

赋权矩阵及其性质

本文给出了以S为行权和向量的权矩阵类T_＋(S)中每个权矩阵都可逆的一个充要条件．     

带到达时间的单机排序中的资源分配问题

讨论两个单机排序的资源分配问题1｜rj,pj=bj-ajuj,Cmax≤｜∑uj和1｜rj,prec,pj=bj-ajuj C max≤｜∑uj并给出求其最优资源分配的多项式算法.     

Design of new seismometer based on laser Doppler effect

In order to improve the resolution of seismic acquisition,a new seismic acquisition system based on tangential laser Doppler effect with an optimized differential optical configuration is proposed.The relative movement of the inertia object and the immobile frame is measured by laser Doppler effect,which can avoid the electromagnetic and thermometric interference,and the adoption of frequency-modulated (FM) transmission can improve the ability of anti-jamming.The frequency bandwidth is properly determined by analyzing the frequency of the Doppler signal.The velocity, displacement,acceleration, and frequency to be measured can be real-time acquired by frequency/velocity (F/V) converting the FM Doppler signal. A 100-dB dynamic range and the linear frequency range of 1.0 to 1000 Hz are realized.     

预富集电感耦合等离子体质谱法测定地下水中超痕量稀土元素及钪、钇

以P507萃淋树脂为固定相，HCl/EDTA为流动相，建立了地下水中超痕量稀土元素及钪、钇的ICP－MS测定的新方法。详细探讨了稀土元素（REEs）、Sc、Y与基体元素的分离、EDTA小体积洗脱的实验条件及ICP－MS工作参数。在pH2.6时上柱，大部分Ca、Mg，其体可不经淋洗而直接与REEs分离；以100mmol的EDTA洗脱，5mL淋洗体积REEs、Y、Sc回收率为96％－98.5%。详细考察了La、Ce、Pr的氧化物离子及氢氧化物离子的干扰及校正方法。分析方法的检测限为0.7-10.1ng/L，加标回收率为95％－99％。用于实际地下水及人工模拟水样的分析，结果令人满意。     

薄层液/液界面电子转移动力学的研究进展

薄层循环伏安法是研究液/液界面电荷转移的一种新方法,具有简单、快速、易操作的优点。文章回顾了液/液界面电化学的发展历史,介绍了薄层法的实验原理,对其在电化学中的应用和研究进展进行了评述,总结了界面驱动力与电子转移速率的关系。