扭转陀螺的运动研究

运用欧拉动力学方程分析了扭转陀螺的力学特性,从理论上预测了陀螺释放后250s内的运动情况,实验研究了陀螺的定轴性和进动性对陀螺运动的影响.实验结果表明:在初始扭转力矩变大时,进动角与章动角的角速度与角度峰值都会变大,但变化周期几乎不变.     

微型光纤光谱仪波长标定技术的研究

为了得到准确的光谱测量结果,对AvaSpec-2048微型光纤光谱仪进行了标定实验设计。根据标定实验结果,采用两种不同的数学算法,使用MATLAB软件,得到了标定方程和拟合曲线。为了验证标定结果的准确性,设计了验证实验,通过对比验证实验结果得到最佳标定方程。     

Spacer layer thickness fluctuation scattering in a modulation-doped AlxGa1-xAs/GaAs/AlxGa1-xAs quantum well

We theoretically study the influence of spacer layer thickness fluctuation（SLTF） on the mobility of a twodimensional electron gas（2DEG） in the modulation-doped Al x Ga 1 x As/GaAs/Al x Ga 1 x As quantum well.The dependence of the mobility limited by SLTF scattering on spacer layer thickness and donor density are obtained.The results show that SLTF scattering is an important scattering mechanism for the quantum well structure with a thick well layer.     

基于激光外差干涉术的薄膜厚度测量方法

针对光学薄膜厚度测量困难问题，提出了一种基于激光外差干涉术的薄膜厚度测量方法。采用经典迈克尔逊干涉光路，利用外差干涉原理将薄膜厚度差转换为光程差，以精密位移平台为扫描机构实现薄膜厚度的逐行扫描测量。测量系统在恒温实验条件下20 min内的漂移不超过8 nm，测量结果平均差小于1 nm，通过与椭圆偏振仪的测量结果比较，测量差值为12.97 nm，表明了该方法的可行性。     

Spacer layer thickness fluctuation scattering in a modulation-doped Al_xGa_1-xAs/GaAs/Al_xGa_1-xAs quantum well

We theoretically study the influence of spacer layer thickness fluctuation(SLTF) on the mobility of a twodimensional electron gas(2DEG) in the modulation-doped Al x Ga 1 x As/GaAs/Al x Ga 1 x As quantum well.The dependence of the mobility limited by SLTF scattering on spacer layer thickness and donor density are obtained.The results show that SLTF scattering is an important scattering mechanism for the quantum well structure with a thick well layer.     

荧光法测定半导体禁带宽度

光学带隙或禁带宽度是半导体材料的一个重要特征参数.本文以3个具有代表性的InGaN/GaN多量子阱结构作为研究对象,深入探讨了荧光法测定某个目标温度下InGaN阱层的光学带隙所需要满足的测试条件.由于InGaN阱层是一种多元合金且受到来自GaN垒层的应力作用,所以该阱层中不仅存在着杂质/缺陷相关的非辐射中心,也存在着组分起伏诱发的局域势起伏以及极化场诱发的量子限制斯塔克效应.因此,为了获得目标温度下InGaN阱层的较为精确的光学带隙,提出了荧光测量至少应满足的测试条件,即必须消除该目标温度下非辐射中心、局域中心以及量子限制斯塔克效应对辐射过程的影响.     

Efficiency droop in InGaN/GaN-based LEDs with a gradually varying In composition in each InGaN well layer

Temperature-dependent and driving current-dependent electroluminescence spectra of two different InGaN/GaN multiple quantum well structures SA and SB are investigated,with the In composition in each well layer(WL)along the growth direction progressively increasing for SA and progressively decreasing for SB.The results show that SB exhibits an improved efficiency droop compared with SA.This phenomenon can be explained as follows:owing to the difference in growth pattern of the WL between these two samples,the terminal region of the WL in SB contains fewer In atoms than in SA,and therefore the former undergoes less In volatilization than the latter during the waiting period required for warming-up due to the difference in the growth temperature between well and barrier layers.This results in SB having a deeper triangular-shaped potential well in its WL than SA,which strongly confines the carriers to the initial region of the WL to prevent them from leaking to the p-GaN side,thus improving the efficiency droop.Moreover,the improvement in the efficiency droop for SB is also partly attributed to its stronger Coulomb screening effect and carrier localization effect.