太赫兹互补金属氧化物半导体场效应管探测器理论模型中扩散效应研究

针对基于经典动力学理论传统模型中忽略扩散效应的问题,通过对基于玻尔兹曼理论的场效应管传输线模型的理论分析,建立了包含扩散效应的太赫兹互补金属氧化物半导体(CMOS)场效应管探测器理论模型,研究扩散效应对场效应管电导及响应度的影响.同时,将此模型与忽略了扩散效应的传统模型进行了对比仿真模拟,给出了两种模型下的电流响应度随温度及频率变化的差别.依据仿真结果,并结合3σ原则明确了场效应管传输线模型中扩散部分省略的依据和条件.研究结果表明:扩散部分引起的响应度差异大小主要由场效应管的工作温度及工作频率决定.其中工作频率起主要作用,温度变化对差异大小影响较为微弱;而对于工作频率而言,当场效应管工作频率小于1 THz时,模型中的扩散部分可以忽略不计;而当工作频率大于1 THz时,扩散部分不可省略,此时场效应管模型需同时包含漂移、散射及扩散三个物理过程.本文的研究结果为太赫兹CMOS场效应管理论模型的精确建立及模拟提供了理论支持.     

大学物理开放实验建设的研究与实践

根据教育部提倡推广的开放实验教学模式,开发并建立了具有排课选课功能、多媒体教学功能、考勤打分功能、信息发布功能和资产管理功能的开放实验管理系统。开放实验教学调动了学生的学习自主性,培养了学生的创新精神和创新能力,提高了物理实验教学质量,并实现从学校到学院到实验室的垂直管理,具有权限的使用者不分距离远近、不分时间段随时对一线正在使用的设备进行跟踪管理。     

Image reconstruction tomography with only a method for laminar optical single Monte-Carlo simulation

Laminar optical tomography （LOT） is a new mesoscopic functional optical imaging technique. Currently, the forward problem of LOT image reconstruction is generally solved on the basis of Monte-Carlo （MC） methods. However, considering the nonlinear nature of the image reconstruction in LOT with the increasing number of source positions, methods based on MC take too much computation time. This letter develops a fast image reconstruction algorithm based on perturbation MC （pMC） for reconstructing the absorption or scattering image of a slab medium, which is suitable for LOT or other functional optical tomography system with narrow source-detector separation and dense sampling. To calculate the pMC parameters, i.e., the path length passed by a photon and the collision numbers experienced in each voxel with only one baseline MC simulation, we propose a scheme named as the trajectory translation and target voxel regression （TT＆TVR） based on the reciprocity principle. To further speed up the image reconstruction procedure, the weighted average of the pMC parameters for all survival photons is adopted and the region of interest （ROI） is extracted from the raw data to save as the prior information of the image reconstruction. The method is applied to the absorption reconstruction of the layered inhomogeneous media. Results demonstrate that the reconstructing time is less than 20 s with the X - Y section of the sample subdivided into 50 × 50 voxels, and the target size quantitativeness ratio can be obtained in a satisfying accuracy in the source-detector separations of 0.4 and 1.25 mm, respectively.     

Theory of noise in a kilo-Hz cascaded high-energy Yb-doped nanosecond pulsed fiber amplifier

A theoretical analysis of noise in a high-power cascaded fiber amplifier is presented. Unlike the noise theory in low power communication, the noise of a high power system is redefined as the leaked output energy between pulses with coherent beat noise uncounted. This definition is more appropriate for high power usage in which the pulse energy receives more attention than the pulse shape integrity. Then the low power pre-amplifying stages are considered as linear amplification and analyzed by linear theory. In the high-power amplification stages, the inversion is assumed to recover linearly in the time interval between pulses. The time shape of the output pulse is different from that of the input signal because of different gains at the front and back ends of the pulse. Then, a criterion is provided to distinguish the nonlinear and linear amplifications based on the signal-to-noise ratio （SNR） analysis. Then, an experiment that shows that the output SNR actually drops off in nonlinear amplification is performed. The change in the noise factor can be well evaluated by pulse shape distortion.     

基于仲裁机制的扭矩控制算法

设计了一种应用于电控柴油发动机的扭矩控制算法,该算法首先针对当前电控技术工况日趋复杂的情况,设计了一种仲裁表决机制以整合各类工况的扭矩需求;另一方面,针对传统PID控制策略在电控柴油发动机正常运转情况下的诸多不足,设计了一种基于前馈补偿的动态PID控制策略;该算法在发动机台架上进行了实验验证:首先在转速瞬间提升至设定转速时,算法可以在3 s内快速响应转速变化并收敛;其次在全转速状态下,该算法的扭矩变化曲线与传统算法的相比,两者相差小于3%;两组实验结果说明该算法基本满足发动机正常工作需要。     

血液成分变化对皮肤漫反射光谱及肤色的仿真分析

皮肤的漫反射光谱中包含丰富的组织信息,已被广泛应用于生理参数的检测,但由于人体生理参数变化复杂、多种情况下光学数据采集困难等因素,其在无创外周血液生理参数检测技术的发展及应用中受到了限制。鉴于此,使用蒙特卡罗模拟方法仿真了不同总血红蛋白、含氧血红蛋白、脱氧血红蛋白、高铁血红蛋白等多种外周血液成分浓度对皮肤的漫反射光谱及肤色的影响,提出了基于色谱融合的发绀成因分析方法。结果表明,皮肤的颜色特征可区分健康、黄疸病以及发绀,而分析方法解决了仅使用肤色很难对发绀现象的成因进行准确区分的难题。     

Density functional calculations on 13-atom Pd12M （M= Sc-Ni） bimetallic clusters

The geometric structures,electronic and magnetic properties of the 3d transition metal doped clusters Pd12M(M=Sc-Ni) are studied using the semi-core pseudopots density functional theory.The groundstate geometric structure of the Pd12M cluster is probably of pseudoicosahedron.The Ih-Pd12M cluster has the most thermodynamic stability in five different symmetric isomers.The energy gap shows that Pd12M cluster is partly metallic.Both the absolutely predominant metal bond and very weak covalent bond might exist in the Pd12M cluster.The magnetic moment of Pd12M varies from 0 to 5 μB,implying that it has a potential application in new nanomaterials with tunable magnetic properties.     

离子自组装合成侧链型偶氮复合物及其聚集形态研究

用溶液聚合法制备了4-乙烯基吡啶与丙烯腈的无规共聚物(P4VP-r-AN), 采用¹H NMR, ¹³C NMR, DSC和FTIR等手段确定了其结构和组成. 粘度法测得其粘均分子量为1.06×10⁴ g/mol, 由其¹H NMR 谱峰面积估算得到4-乙烯基吡啶链段的质量百分含量约为87.1%. 以质子化的4-乙烯基吡啶-丙烯腈无规共聚物(P4VP^＋-r-AN)为模板, 与酸性间胺黄(MY)在水溶液中通过离子自组装, 制备了一种侧链型偶氮复合物(P4VP-r-AN/MY). 用¹H NMR, FT-IR, DSC, UV-Vis, SEM, TEM和HRTEM&EDS(高分辨率透射电镜与X射线能谱联用)等手段研究了该复合物的聚集形态及自组装过程. 研究发现MY通过静电相互作用复合到P4VP^＋-r-AN链上并发生聚集, 使复合物分子链聚集形成尺寸为10～200 nm的球形聚集体. P4VP-r-AN/MY中, MY与P4VP-r-AN的物质的量之比为0.575. HRTEM&EDS测试结果显示P4VP-AN/MY球形聚集体中硫元素的分布接近球形, 与聚集体的形状几乎一致, 表明MY分子在该组装物中主要以球形纳米聚集体的形式存在.     

原位合成分子筛多孔层毛细管柱的制备与性能考察

在毛细管内壁,原位合成了Ｎａ－Ａ型分子筛,成功制备出一类新型分子筛多孔尾毛细管柱。和涂渍相比,原位合成法在毛细管内壁形成的分子筛层更加均匀、致密度、更能体现出分子筛对低碳烃的分离特性,实验表明用超短毛细管柱即可对低碳烃进行良好的分离。