SAC/SAC-CI方法研究LiH基态(X1∑+)以及A1∑+、B1∏激发态结构与性质

利用SAC(Symmetry-Adapted Cluster)/SAC-CI(Configuration Interaction)理论中的SAC-CI-NV(Non-variational)and SAC-CI-V(Variational)方法,以及6-311 g**基组对LiH分子的基态(X1∑ )和A1∑ 、B1∏激发态的平衡结构以及性质进行了研究计算.两种方法对LiH分子的三个态进行处理,并将优化结果与现有实验值进行了比较,结果显示,理论计算值都与实验值符合较好.同时利用SAC/SAC-CI方法中的AllProperties关键字对我们所关心的LiH分子的基态(X1∑ )和A1∑ 、B1∏激发态进行了计算,并给出各个态在其平衡点位置处的偶极矩、振子强度和抗磁化率等一些性质参数,对以后的实验作理论参考.     

失配状态下的双线阵波束形成研究

基于双线阵在阵间距失配状态下左右舷分辨性能会急剧下降的事实,利用延时相加和延时相减两种波束形成方法,分别推导了理想状态下双线阵的波束形成和阵间距失配状态下波束形成的方向指向性函数；分析了理想状态下和阵间距失配状态下延时相加和延时相减两种波束形成方法的左右舷分辨性能。理论分析表明延时相减波束形成具有较好的左右舷分辨性能。最后用海试数据验证了理论分析结果的正确性。     

一种平面型光纤光栅水听器探头技术的研究

阐述了一种平面薄板结构的平面型光纤Bragg光栅(Fiber Bragg Grating,缩写为FBG)水听器探头的工作原理,从理论和实验上分析研究了该探头的结构灵敏度、频率响应特性以及加速度响应特性。平面圆形薄板采用不锈钢,尺寸为:直径15 mm、厚度0．15 mm,探头为圆柱型,尺寸为:直径17 mm、长20 mm。对于该尺寸结构的FBG水听器,探头静态灵敏度可达23 fm/Pa,比裸光栅增敏7300倍;谐振频率为6．5 kHz,而且幅频特性在100 Hz～5．5 kHz频率范围内较为平坦;低频段加速度响应灵敏度为:58～75(fm·s~2/m),在1 m/s~2加速度作用下其输出等效(2．52～3．26 Pa)压力作用下的输出。该结构的探头也便于多路复用组成水听器阵列。该平面结构不仅可以组成光纤FBG水听器探头,同样可以组成光纤光栅激光水听器探头。对薄板的几何尺寸进行适当的调整,可实现不同量程、不同带宽的水声压力测量。     

Dynamic Properties of Two-Dimensional Polydisperse Granular Gases

We propose a two-dimensional model of polydisperse granular mixtures with a power-law size distribution in the presence of stochastic driving. A fractal dimension D is introduced as a measurement of the inhomogeneity of the size distribution of particles. We define the global and partial granular temperatures of the multi-component mixture. By direct simulation Monte Carlo, we investigate how the inhomogeneity of the size distribution influences the dynamic properties of the mixture, focusing on the granular temperature, dissipated energy, velocity distribution, spatial clusterization, and collision time. We get the following results: a single granular temperature does not characterize a multi-component mixture and each species attains its own "granular temperature"; The velocity deviation from Gaussian distribution becomes more and more pronounced and the partial density of the assembly is more inhomogeneous with the increasing value of the fractal dimension D; The global granular temperature decreases and average dissipated energy per particle increases as the value of D augments.     

电子俘获材料CaS∶Eu,Sm光谱特性研究

研究了电子俘获材料CaS∶Eu,Sm多晶粉末的紫外-可见-红外吸收光谱及红外激励光谱.研究结果表明,CaS∶Eu,Sm中主激活剂Eu和辅助激活剂Sm分别以Eu2 离子和Sm3 离子的形式存在;ETM的吸收差谱及红外激励光谱所反映的光谱特性是不同的.紫外-可见光区的吸收差谱给出了ETM光谱存储灵敏度的信息,而红外光谱区的吸收差谱给出了ETM所俘获电子数量的信息及电子陷阱能级的特征(深度和宽度)信息.红外激励光谱则反映了ETM将不同波长的红外激励光的能量转换为特定波长处的红外辐射光能量的光谱转换灵敏度.二者结合起来可以更完整地描述ETM的光谱特性.     

Semiconductor-Optical-Amplifier-Based Inverted and Non-Inverted Wavelength Conversion at 40 Gb/s Using a Detuning Optical Bandpass Filter

We experimentally demonstrate 40Gb/s semiconductor-optical-amplifier-based tunable wavelength conversion （WC） using a detuning optical bandpass filter. Both inverted and non-inverted WCs are obtained by shifting the filter central wavelength with respect to the probe wavelength. When the filter is red shifted by 0.4nm or blue shifted by 0.3nm, the WC is non-inverted. However, when the filter is blue shifted by 0.1 nm, the WC is inverted. It is experimentally demonstrated that the WC has a tunable range covering the C-band.     

Optimization of Metamorphic InGaAs Quantum Wells on GaAs Grown by Molecular Beam Epitaxy

We investigate the molecular beam epitaxy growth of metamorphic InxGal-xAs materials （x up to 0.5） on GaAs substrates systematically. Optimization of structure design and growth parameters is aimed at obtaining smooth surface and high optical qualdty. The optimized structures have an average surface roughness of 0.9-1.8 nm. It is also proven by PL measurements that the optical properties of high indium content （55%） InGaAs quantum wells are improved apparently by defect reduction technique and by introducing Sb as a surfactant. These provide us new ways for growing device quality metamorphic structures on GaAs substrates with long-wavelength emissions.     

Effects of Different Dispersion Methods on the Microscopical Morphology of TiO2 Film

Nanocrystalline porous TiO2 films were prepared on conducting glass supports （ITO） by processed commercial TiO2 nanometre powder （P25）. Three methods of physical dispersing for TiO2 powder, i.e. grinding, magnetic stirring, sonicleaning, were used to disperse TiO2 nanometre powder. Surface morphologies of TiO2 films were observed by optic-microscope and SEM. It is found that the surface morphologies of TiO2 films are determined not only by the dispersing methods but also by the percentage of TiO2 powder in the dispersing system. Different film morphologies can be obtained under the same preparation condition but with different dispersing methods. A lot of cracks exist on the film surface for which the TiO2 slurry is dispersed by grinding. Magnetic stirring leads to some white points and micro-holes on the film surface. Only a few of micro-holes can be observed on the film surface, in which the TiO2 slurry is dispersed by sonicleaning. Different surface morphologies can also be found with different thicknesses of TiO2 films. Different film thicknesses are due to different percentages of TiO2 powder in the slurry. The related mechanism leading to different features of the surface morphologies for the TiO2 films is discussed.     

杂质对多电子方形量子点系统基态能的影响

根据密度泛函理论,用自洽迭代的方法求解二维方形量子点中有杂质时电子(N=1~12)的薛定谔方程,对绝对零度情况下处于基态电子的总能量进行了数值计算,并讨论了杂质对量子点中电子基态能量的影响,得出了方形量子点中多电子系统基态的一些性质.     

甲硅烷的分解复合的对称性

本文基于原子分子反应静力学证明甲硅烷SiH4的分解方式Ⅱ是对称性允许的,而分解方Ⅰ是对称性不许可的.