外场对π电子能隙调制C==C，C-C伸缩振动的影响

共振拉曼光谱是研究线性多烯分子的主要分子光谱技术。该技术完美地表征了π电子能隙对C==C,C-C伸缩振动的调制规律。这种调制是通过电子-声子耦合完成的。改变外界环境,能隙调制作用将受到影响。测量了溶剂中β-胡萝卜素分子在温度、压力、溶剂效应、相变等不同环境影响下的吸收光谱、共振拉曼光谱,研究了不同外场对π电子能隙调制C==C,C-C伸缩振动的影响机理及规律。结果表明,在外场影响下,体系的能量降低,π电子能隙(π-π*)减小会使调制增强。即电子-声子耦合增强,使拉曼强度增加,谱线红移。对理解共振拉曼物理过程,认识线性多烯分子的结构,性能有重要意义,对研制优质光电器件也有参考价值。     

基于三线阵CCD空间目标的高精度位姿解算

为了解决三线阵CCD空间目标位姿测量的精度问题,提出一种高精度位姿解算方法。该算法将所有线阵CCD相机的坐标系进行统一化处理。通过建立一个新的误差评价函数,运用改进的正交迭代算法求解位姿参数,并进行非线性优化。仿真和实际测量结果表明,该算法有效避免了因数据恶化或初值选取等因素造成的不收敛或收敛差的问题。与传统算法相比,该算法测量精度和抗噪特性均得到有效改善,计算效率提高了4.6倍,实际测量的6个自由度的最大相对误差为0.71%。该测量系统可实现对空间目标的高精度实时测量,且具有安装方便、应用范围广等优点。     

激光电源中基于EXB841的IGBT驱动电路设计

根据IGBT对驱动电路的各项要求,在采用专用驱动模块EXB841及带有过流保护功能的驱动电路的基础上,设计了简化的IGBT驱动电路,并提出了构建实际驱动电路的注意事项。通过对PWM信号、IGBT动态驱动信号、IGBT开通时驱动信号上升沿、IGBT关断时驱动信号下降沿等波形的实际观测,表明此驱动电路工作正常。该驱动电路已用于某型脉冲固体激光电源中,运行良好,可靠性较高。     

低工作电压聚噻吩薄膜晶体管

以高掺杂Si单晶片作为衬底且充当栅电极,采用磁控溅射法在硅片上沉积HfTiO薄膜作为栅介质层,聚三己基噻吩(P3HT)薄膜作为半导体活性层,金属Au作为源、漏电极,并采用十八烷基三氯硅烷(OTS)对栅介质层表面修饰,在空气环境下成功地制备出聚合物薄膜晶体管(PTFT).PTFT器件测试结果表明,该晶体管在低的驱动电压(<-1 V)下仍呈现出良好的饱和行为,其阈值电压和有效场效应迁移率分别为0.4 V和2.2×10^-2 cm²/V ·s.通过对金属-聚合物-氧化物 关键词： 聚合物薄膜晶体管 聚三己基噻吩 场效应迁移率 k栅介质')" href="#">高k栅介质     

Numerical method of studying nonlinear interactions between long waves and multiple short waves

Although the nonlinear interactions between a single short gravity wave and a long wave can be solved analytically, the solution is less tractable in more general cases involving multiple short waves. In this work we present a numerical method of studying nonlinear interactions between a long wave and multiple short harmonic waves in infinitely deep water. Specifically, this method is applied to the calculation of the temporal and spatial evolutions of the surface elevations in which a given long wave interacts with several short harmonic waves. Another important application of our method is to quantitatively analyse the nonlinear interactions between an arbitrary short wave train and another short wave train. From simulation results, we obtain that the mechanism for the nonlinear interactions between one short wave train and another short wave train (expressed as wave train 2) leads to the energy focusing of the other short wave train (expressed as wave train 3). This mechanism occurs on wave components with a narrow frequency bandwidth, whose frequencies are near that of wave train 3.     

Raman and optical absorption spectroscopic investigation of Yb-Er codoped phosphate glasses containing SiO_2

Yb-Er codoped Na2O-Al2O3-P2O5-xSiO2 glasses containing 0 - 20 mol% SiO2 were prepared successfully. The addition of SiO2 to the phosphate glass not only lengthens the bond between pS＋ and non-bridging oxygen but also reduces the number of P=O bond. In contrast with silicate glass in which there is only four-fold coordinated Si4＋, most probably there coexist [SiO4] tetrahedron and [SiO6] oetahedron in our glasses. Within the range of 0 - 20 mol% SiO2 addition, the stimulated emission cross-section of Era＋ ion only decreases no more than 10%. The Judd-Ofelt intensity parameters of Er3＋, Ω2 does not change greatly, but Ω4 and Ω6 decrease obviously with increasing SiO2 addition, because the bond between Er3＋ and O2- is more strongly eovalently bonded.     

纳米晶复合永磁材料的交换耦合相互作用和磁性能

本介绍了纳米磁性材料晶粒交换耦合相互作用的有关理论。采用不同模型讨论了晶粒交换耦合相互作用对纳米单相软磁材料、永磁材料及双相复合永磁材料磁性能的影响。简述了用δM（H）曲线和不可逆磁导率的变化研究晶粒交换耦合相互作用及反磁化过程的方法。讨论了合金分配比、添加元素、制备及热处理工艺对磁体硬磁性能的影响。从理论和实验两方面分析、研究了纳米复合永磁材料的反磁化过程和矫顽力机制。     

基于改进的FAST-SURF快速图像拼接算法

针对SURF(speeded-up robust features)算法计算量大、图像拼接效率低的不足,以FAST(features from accelerated segment test)角点取代SURF斑点在图像重合区域提取特征点,使用SURF描述子进行特征点描述,通过描述子降维、自适应最近邻与次近邻比值法、几...     

碱土金属氟卤化物中的Eu3+的荧光光谱特征

本文系统研究了MFX体系中Eu³⁺荧光光谱特征,着重讨论了X^-,M²⁺及杂质缺陷(主要为O^2-)对Eu³⁺发光的影响.     

石墨烯/Ag@TiO_2共同修饰的染料敏化太阳能电池制备及其性能

利用水热法制备石墨烯和Ag@TiO_2核壳纳米颗粒(nanoparticles,NPs)共同修饰的染料敏化太阳能电池(dye-sensitized solar cell,DSSC),研究石墨烯和Ag@TiO_2纳米颗粒对光阳极和DSSC性能的影响.实验结果显示,掺入的Ag@TiO_2纳米颗粒质量分数为0.6%时,制备的DSSC性能最优,光电转换效率(photoelectric conversion efficiency,PCE)为5.84%,相比于纯TiO_2光阳极DSSC提高了近20%.研究表明,石墨烯/Ag@TiO_2染料敏化太阳能电池性能的提高,一方面是由于Ag@TiO_2纳米颗粒的掺入增强了染料的光吸收能力;另一方面是由于石墨烯的引入显著改善了光阳极染料的吸附量,加快了载流子的传输,增加了载流子寿命,两者协同显著提高了DSSC的短路电流密度(short-circuit photocurrent density,J_(sc))和光电转换效率.