一类非线性双曲—抛物耦合方程组的周期边值问题

§1 引言在循环燃料反应堆中,其中心密度u及温度v满足下列方程组:     

概率论在就业决策中的一个应用

随着科学技术的飞速发展，生产力水平正在不断提高，各行各业的就业岗位已经远远不能满足即将从业者的需求，就业“供”与“需”之间的予盾越来越突出．对于一名即将从业的人（尤其是即将毕业的大学生）来说，面对强手如林的竞争局面，除了刻苦学习必备的基础知识，努力训练从业的基本技能以外，在竞争工作岗位时，如何进行就业的决策，也是一个不容忽视的问题．本文通过几种具体情况，对这个问题进行一点探讨．     

激光雷达中层大气遥感技术

介绍了中科院武汉物理与数学研究所瑞利激光雷达的技术特点，并从其对武汉地区中层大气密度和温度廓线探测的典型结果，给出了该激光雷达对中层大气主要参数的探测能力。     

Total Dose Radiation Tolerance of Phase Change Memory Cell with GeSbTe Alloy

Phase change memory （PCM） cell array is fabricated by a standard complementary metal-oxide-semiconductor process and the subsequent special fabrication technique. A chalcogenide Ge2Sb2Te5 film in thickness 50hm deposited by rf magnetron sputtering is used as storage medium for the PCM cell. Large snap-back effect is observed in current-voltage characteristics, indicating the phase transition from an amorphous state （higher resistance state） to the crystalline state （lower resistance state）. The resistance of amorphous state is two orders of magnitude larger than that of the crystalline state from the resistance measurement, and the threshold current needed for phase transition of our fabricated PCM cell array is very low （only several μA）. An x-ray total dose radiation test is carried out on the PCM cell array and the results show that this kind of PCM cell has excellent total dose radiation tolerance with total dose up to 2 ×10^6 rad（Si）, which makes it attractive for space-based applications.     

多发弹丸发射系统阀门电源及可编程发射控制器的研制

多发弹丸发射系统是我院20世纪90年代从俄罗斯引进的设备，用于发射弹丸的快阀门电源属于非标产品，其备件缺乏，维修困难。为保证HL-2A装置弹丸注入实验顺利进行，根据设计要求，研制了这套弹丸快阀电源和可编程发射控制器。它们之间的连接如图1所示。     

水平管外强化凝结传热的数值解

以Nusselt理论为基础,运用三维坐标建立了肋片侧面的冷凝传热模型,对肋片侧面的冷凝传热机理进行了分析,得出了肋片侧面表面传热系数的积分表达式。利用此法对水平环肋单管表面传热系数进行计算并将结果与传统解法进行比较。     

Effect of Incident Intensity on Films Growth in Pulsed Laser Deposition

Incident intensity, defined by the amount of particles deposited per pulse, is an important parameter in the film growth process of pulsed laser deposition （PLD）. Different from previous models, we investigate the irreversible and reversible growth processes by using a kinetic Monte Carlo method and find that island density and film morphology strongly depend on pulse intensity. At higher pulse intensities, lots of adatoms instantaneously diffuse on the substrate surface, and then nucleation easily occurs between the moving adatoms resulting in more smaller-size islands. In contrast, at the lower pulse intensities, nucleation event occurs preferentially between the single adatom and existing islands rather than forming new islands, and therefore the average island size becomes larger in this case. Additionally, our results show that substrate temperature plays an important role in film growth. In particular, it can determine the films shape and weaken the effect of pulse intensity on film growth at the lower temperatures by controlling the mobility rate of atoms. Our results can match the related theoretical and experimental results.     

电沉积制备金属超细Cu粉的研究

探讨了超细铜粉电沉积制备过程中阴极电流密度对粉体粒径的影响机制。结果表明:电流密度的改变对阴极过电位影响显著,电流密度从0.04A/cm2变化到0.1 A/cm2时,过电位从4.08V变化到9.96V;而过电位的变化直接引起粉体粒径的变化,粒径从大约50nm变化到700nm。分析表明,高电流密度可以获得较高的阴极过电位;在高的阴极过电位条件下,新核的生成速率高且稳定存在的晶核临界半径小,使得粉体粒径变细。     

激光推进的基本原理和实验进展综述

激光推进是一种新型的推进模式,按作用机理可分为大气模式激光推进和火箭烧蚀模式激光推进两种。分析了两种推进模式的作用原理,论述了激光推进的最新研究进展。