列阵透镜对能量测量影响的分析

结合列阵透镜的透过率分析了其后的光场分布。列阵透镜由多个列阵元拼接而成，用以改善主透镜焦点附近能量分布的均匀性。列阵透镜在提高辐照均匀性的同时，给能量测量带来了不利的影响。这是由于经过列阵元的相邻子光束会产生干涉，干涉条纹处的激光能量密度和功率密度相应都大为增加，其数值在干涉区域中心处能上升到原来的4倍。更高的能量密度和功率密度对能量计提出了更苛刻的要求。在没有采取适当措施的时候使用，就会损坏能量计。     

NCl(a~1Δ)自猝灭对NCl(a~1Δ)/I激光能量提取的影响

利用连续流平面型光腔动力学模型对NCl(a1Δ)/I 激光体系进行了模拟计算,探讨了温度在300 K 时NCl(a1Δ)自猝灭对NCl(a1Δ)/I激光能量提取的影响。计算结果表明,NCl(a1Δ)自猝灭反应对光腔位置的选取、功率密度沿流动方向的分布和总输出功率都有较大的影响。其中,光腔位置的可选范围大大缩短,在较小的初始HI粒子数密度和适当的输出镜反射率下总输出功率大幅度降低,而随着HI粒子数密度的增加,NCl(a1Δ)自猝灭对总输出功率的影响逐渐减小。     

大气中固体燃烧等离子体与微波相互作用的实验研究

 设计制造了含特定组分的化学药剂，利用热力学方法对其在大气中燃烧所产生的等离子体的电子密度进行了理论计算，对该等离子体对2~15 GHz波段微波的透射衰减和反射进行了测试。测试结果表明，该等离子体对该波段微波具有宽波段强吸收和弱反射性能，波段内的平均吸收大于25 dB，反射信号几乎淹没在背景噪声中。并从理论上分析了带电子与中性粒子的造成这一现象的主要原因是碰撞吸收。     

基于SOS的脉冲功率源技术新进展

 研制了基于SOS的胡杨200和胡杨700脉冲功率源。给出了胡杨200和胡杨700的电路原理、组成结构和实验波形。介绍了在SOS脉冲功率源上开展的高重复频率强流电子束产生、长寿命阴极实验、绝缘介质的高重复频率击穿实验和低引导磁场无箔二极管等实验研究进展。经测试，胡杨200在2 kHz重复频率、负载阻抗200 Ω下，输出电压200 kV，脉冲宽度约35 ns，平均输出功率大于10 kW；在300 Hz条件下可连续运行。胡杨700同样为全固态脉冲功率源，其设计指标:输出电压700 kV，电流5 kA，脉冲宽度约40 ns；经初步调试在150 Ω电阻负载上单脉冲输出指标达到660 kV，4.4 kA，脉宽约70 ns。     

墙体对微波脉冲的衰减特性

 研究墙体对微波脉冲的衰减特性，测量了微波脉冲垂直入射墙体后的脉冲信号，经过计算得到普通砖混墙、普通钢筋混凝土墙、钢筋网混凝土墙对窄带微波和超宽带微波的衰减值；分析了微波脉冲穿越不同墙体的频谱变化。研究结果表明，普通钢筋混凝土墙和普通砖混墙对窄带微波脉冲的衰减为0.342～0.699 dB/cm，对超宽带信号的衰减为0.134～0.183 dB/cm。钢筋网混凝土墙（厚65 cm）对超宽带信号的衰减较大（29.07～45.79 dB），同时使穿透墙体的超宽带信号频率分布向高频位移。     

高平均功率固体激光及其大气传输

固体激光器是一种具有重要应用背景的高功率激光器,对包括激光波长、光束发射口径、发射功率、光束质量等在内的激光器参数的选择进行了分析,研究了大气介质的光学性质、激光大气传输效应以及激光辐射与靶目标的耦合机制与耦合效率等因素的影响.相关结果表明100 kW的固体激光器的综合效能可与2～3倍平均输出功率的DF化学激光器相当,这说明高平均功率固体激光器是一种具有潜在优势和良好发展前景的高功率激光器.     

敏感元件在有线电视器件中的应用

阐述敏感元件的基本概念及其在有线电视网络器件中的几种典型应用,首先介绍敏感材料的基本类型和今后的发展趋势,然后详细介绍目前比较典型的几种敏感元件在开关稳压电源、Cable Modem、双向放大器、彩电消磁、程控交换机、光工作站中的应用。     

微波相关器散射参数推导与MATLAB仿真

运用矩阵代数分析方法,推导了由功分器、定向耦合器和延迟线组成的微波相关器在忽略各部件互连传输线情况下的散射参数表达式,形式简明,物理概念清晰。结合S参数表达式利用Matlab数值计算,全面分析了功分器输出幅度、相位不一致,定向耦合器耦合度变化、直通端和耦合端相位差非90°等情况对微波相关器鉴相带来的影响,为分析设计微波相关器提供了参考。     

A high precision temperature control system for CMOS integrated wide range resistive gas sensors

In this work we present an integrated interface for wide range resistive gas sensors able to heat the sensor resistance through a constant power heater block at 0°C–350°C operating temperatures. The proposed temperature control system is formed by a sensor heater (which fixes the sensor temperature at about 200°C), a R/f (or R/T) converter, which converts the resistive value into a period (or frequency), and can be able to reveal about 6 decades variation (from 10 KΩ up to 10 GΩ), and a digital subsystem that control the whole systems loop. This interface allows high sensibility and precision and performs good stability in temperature and power supply drift and low power characteristics so it can be used also in portable applications. Test measurements, performed on the fabricated chip, have shown an excellent agreement between theoretical expectations and simulation results. Giuseppe Ferri is an associate professor in Electronics at the Department of Electrical Engineering of L’ Aquila University, Ital. In 1993 he has been a visiting researcher at SGS-Thomson Milano, working in bipolar low-voltage op-amp design. In 1994-95 he has been visiting researcher at KU Leuven working in low-voltage CMOS design in the group of Prof. Sansen. His research activity is actually centred on the analog design of integrated circuits for portable applications (e.g., sensors and biomedicals) and circuit theory. He is co-author of a book entitled “Low Voltage, Low Power CMOS Current Conveyors”, Kluwer ed. (2003) and four text-books in Italian on Analogue Microelectronics (2005, 2006). Moreover, he is author and co-author of 74 papers on international and Italian journals and 123 talks at national and international conferences. Vincenzo Stornelli was born in Avezzano (AQ), Italy, on May 31, 1980. He received the Electronics Engineering degree (cum laude) in July 2004. In October 2004 he joined the Department of Electronic Engineering, University of L’Aquila, where he is actually involved with problems concerning project and design of integrated circuits for RF and sensor applications, CAD modelling, characterization, and design analysis of active microwave components, circuits, and subsystems. He regularly teaches courses of the European Computer patent and has regular collaborations with national corporations such as Thales Italia     

基于风险管理的软件生命周期模型研究

针对现有软件项目风险管理中存在的问题,通过对几种常见软件生命周期模型的分析,探讨了将改进的瀑布型模型的每一阶段与风险管理相结合的风险识别法,提出了基于风险管理的软件生命周期模型的研究,使项目管理人员能将风险模板作为一种工具,对可能发生的风险进行有效的控制和管理,并对软件风险的关联和转移有新的认识。