Cu掺杂的AlN铁磁性和光学性质的第一性原理研究

采用基于密度泛函理论（DFT）的总体能量平面波超软赝势方法,结合广义梯度近似（GGA）,对Cu掺杂AlN 32原子超原胞体系进行了几何结构优化,计算了Cu掺杂AlN的晶格常数,能带结构,电子态密度和光学性质.结果表明,Cu掺杂AlN会产生自旋极化状态,能带结构显示半金属性质,掺杂后带隙变窄,长波吸收加强,能量损失明显减小.同传统的稀磁半导体（DMS）相比,Cu掺杂AlN不会有铁磁性沉淀物的问题,因为Cu本身不具有磁性.因而,Cu掺杂的AlN也许是一种非常有前途的稀磁半导体. 关键词： AlN 第一性原理 铁磁性 光学性质     

使用广义粗网有限差分方法加速中子输运特征线方法

提出广义粗网有限差分方法(GCMFD),可以使用三维任意几何形状的粗网格来加速中子输运特征线方法(MOC),同时给出确定广义粗网有限差分方法中宽度因子的方法.将广义粗网有限差分方法应用到三维特征线方法程序TCM中,若干基准题的验证表明,广义粗网有限差分方法可以使用任意形状粗网格来加速特征线方法,使用自动调整宽度因子的方法后,广义粗网格有限差分方法可以得到较好的加速效果.     

Review of Fluorescence Suppression Techniques in Raman Spectroscopy

Abstract

Raman spectroscopy is an important and powerful technique for analyzing the chemical composition of biological or nonbiological samples in many fields. A serious challenge frequently encountered in Raman measurements arises from the existence of the concurrent fluorescence background. The fluorescence intensity is normally several orders of magnitude larger than the Raman scattering signal, especially in biological samples. Such fluorescence background must be suppressed in order to obtain accurate Raman spectra. Several different techniques have been explored for this purpose. These techniques could be generally grouped into time-domain, frequency-domain, wavelength-domain, and computational methods in addition to various Raman enhancement techniques and other unconventional methods. This review briefly describes the fundamental principles of each group of methods, reports the most recent advances, and makes comparison across those major categories of techniques in terms of cost and performance in a hope to guide interested readers to select proper methods for specific applications.     

Drop deposition of thin nanostructured coatings of lead telluride

The current-voltage relationships of deposited structures are measured for cluster structures consisting of nanoparticles of lead telluride. Variation in the value of the tunnel current is shown. Optimum conditions for the possible emergence of quantum-hopping conductivity due to carrier tunneling (the characteristic sizes of the nanoclusters and the distances between them) are determined.     

THz振荡器双光栅开放腔的高频特性

针对双开槽的双光栅开放式谐振腔,提出了一种基于矩形波导谐振腔理论的计算方法,给出TE04模式场分布的结构设计修正公式,用于进行准光学谐振腔结构设计优化,通过增强电子注区域的电场强度,可有效提高电子效率。同时对双光栅慢波结构"冷"色散特性进行了计算,分析了不同参数对其高频特性的影响。结果表明,双光栅槽宽和电子注通道宽度的变化会对其色散特性的频带上限产生较大影响。     

Proposal for Remotely Realizing Multi-qubit Controlled-Phase Gates

A feasible proposal is explored to remotely perform a family of multi-qubit controlled-phase gates (MQCPG), with the aid of entanglement transfer and quantum repeater. To remotely realize the gates, some local transformations, including single-qubit rotating operation, controlled-NOT gate and quantum phase gate, are employed during the realization. It turns out that MQCPG can be implemented among separate spatially agents with nearly unit fidelity and success probability. Besides, required classical information consumption of the proposed scenario is worked out. Furthermore, some attractive issues are discussed including the feature of present proposal and the experimental feasibility based on current technologies. Remarkably, it is revealed that our proposal essentially accesses to several nontrivial features lying in breaking through the limitation that error probability scales exponentially with the length of the channel in the course of the realization of the gates, and well compatibility with today’s experimental technologies.     

三波长激光雷达拟合卷云的粒子形状

卷云在全球出现的概率可达30%,其散射特性在气候模式、光辐射传输和遥感领域都具有非常重要的意义。卷云的散射特性主要由冰晶粒子形状、尺度谱、折射率等因素所决定。利用355, 532和1 064 nm三个波长激光雷达数据反演卷云的后向散射系数颜色比,利用模拟计算获得不同形状冰晶粒子的卷云在上述三个波长上的后向散射系数颜色比,通过拟合得出被测卷云的冰晶粒子形状。拟合结果表明,合肥上空卷云中冰晶粒子大部分可能呈聚合物状。     

高温超导电缆直流测试电源平台的搭建

根据高温超导电缆测试用直流电源平台的要求,建立了硬件平台。该平台为模块化结构,具有输出精度高,便于扩展等特点;为方便操作,建立了基于LabVIEW的软件平台,对直流电源平台进行远程控制,并给出了远程控制的程序流程图,实现了电流的匀速上升和下降以及上升过程中的中断操作;利用该电源平台进行了超导电缆的临界电流测试实验,验证了直流电源平台符合高温超导电缆的测试要求。     

太赫兹电磁波大气吸收衰减逐线积分计算

大气对太赫兹辐射传输存在一定的非协作性,即存在吸收衰减。为了实现太赫兹辐射的有效应用必须细致地了解太赫兹辐射大气传输的窗口位置、宽度及大气透过率。选取了处理大气非均匀路径、吸收带重叠等大气辐射传输问题的最精确方法逐线积分法,发展计算程序,并基于HITRAN分子谱线数据,对水汽、氧气、臭氧、氮气、二氧化碳等单组分气体分子对太赫兹辐射传输的吸收衰减情况进行了计算与分析,并给出了在太赫兹电磁波大气传输衰减中占主要因素的水汽和氧气的衰减峰位置。     

Difference-frequency ultrasound generation from microbubbles under dual-frequency excitation

The difference-frequency (DF) ultrasound generated by using parametric effect promises to improve detection depth owing to its low attenuation, which is beneficial for deep tissue imaging. With ultrasound contrast agents infusion, the harmonic components scattered from the microbubbles, including DF, can be generated due to the nonlinear vibration. A theoretical study on the DF generation from microbubbles under the dual-frequency excitation is proposed in formula based on the solution of the RPNNP equation. The optimisation of the DF generation is discussed associated with the applied acoustic pressure, frequency, and the microbubble size. Experiments are performed to validate the theoretical predictions by using a dual-frequency signal to excite microbubbles. Both the numerical and experimental results demonstrate that the optimised DF ultrasound can be achieved as the difference frequency is close to the resonance frequency of the microbubble and improve the contrast-to-tissue ratio in imaging.