Study on Spectral Overlap Model for Energy Transfer between J-Multiplets in Rare Earth-Doped Crystals

Based on the experimental data of KY 3F 10∶Tm 3+ reported by Diaf, K ushida′s spectral overlap model (SOM) of energy transfer between J-multipl ets was studied. Firstly, with the help of the Inokuti-Hirayama and Yokota-Tan imoto models, the luminescence decay curve of 3H 4 of Tm 3+ ion was fitted, and the fitted values of corresponding interaction parameters C D A of energy transfer and C DD of energy migration were obtained. Seco ndly, by compared with Kushida′s SOM in which the relevant Judd-Ofelt approxim ative transition rates are known, the average overlap integrals of S DD and S DA were obtained. For S DD, how to treat the contributi on of the electronic-dipole (ED) crystal field transition forbidden by C 4v site symmetry in the calculation of S DD was discussed. For S DA we suggested that, by including the contribution of the phonon sideba nds in the analysis of oscillator strength of transition, Kushida′s SOM of ED- ED resonant energy transfer rate can be extended to non-resonant phonon-assist ed D-A energy transfer. The strengths and widths of phonon sidebands in this ex ample were discussed, and the results were reasonably good.

遥感图象中波谱混迭象元分离方法的研究

提出用层次神经网络模型来解决遥感图象中波谱混迭象元的分离问题 ,即所谓的“同谱异构”问题 .该模型由两级或多级神经网络级联而成 ,第一级神经网络主要用于波谱非混迭象元的分类 ,采用带一个稳含层的BP网络 ,输入节点数目等于输入波段向量的维数 ,输出节点数目等于期望类别数 ;第二级和后续层次的神经网络用于波谱混迭象元的分离 ,也采用只有一个稳含层的BP网络 ,其输入节点数目仍然等于波谱向量的维数 ,输出节点数目等于形成该混迭波谱的类别数 .该模型可以高度精确地分离出波谱混迭的象元 .

便携式X射线荧光光谱仪现场测定萤石矿伴生锑矿样品中钙

便携式X射线荧光光谱仪(PXRF)具有检测速度快、多元素同时测定等优点,已在各种现场检测中得到大量应用。但地质样品矿物伴生类型丰富、基体复杂、各元素之间极易产生干扰,让便携式X射线荧光光谱仪的现场应用受到一定限制。以贵州某萤石矿伴生锑矿区为例,便携式X射线荧光光谱仪现场分析萤石矿伴生锑矿样品中钙,由于仪器应用软件设计不足及仪器能量分辨率所限,样品中元素锑的特征谱线能量叠加在钙元素的特征谱线能量上而使钙的检测结果偏高,实际样品检测发现,偏高程度与样品中锑的含量具有相关性。实验经过回归趋势分析及乘幂方式回归,得出公式y=0.351 9x0.8881(x表示便携式X射线荧光光谱仪测试出锑的含量,y表示受锑影响的假象钙的含量),相关系数R2为0.999 2。根据测得的总钙减去假象钙即得实际钙的含量。实际验证15件样品,经校正后的测试结果与室内EDTA滴定法测试结果基本吻合。方法检出限为0.077%,相对标准偏差(RSD)为1.2%,测定范围3%～30%。实验方法很好地解决了该矿区现场对钙元素含量的检测,可快速指导找矿工作圈定矿体,节约了大量成本及时间。

Analysis and direct calculation of the energy migration interaction parameter in high concentration Nd^(3+) doped YAG laser crystal

The energy migration interaction parameter CDD in high concentration Nd3＋ doped YAG laser crystal was estimated using the Yokota-Tanimoto（Y-T） model and the spectral overlap model（SOM） of Kushida, respectively.Firstly, the experimental luminescence decay curves of 4F3/2 state of Nd3＋ ions in YAG laser crystal at room temperature for 2.0at.% and 3.0at.% Nd3＋ concentrations reported by Mao were fitted successfully using the Y-T model, and the parameter CDD was obtained to be 1.50×10-39 cm6/s.Secondly, the parameter CDD was directly calculated using the spectral overlap model（SOM） of Kushida;CDD was calculated to be 2.73×10-39 cm6/s.By comparing the energy migration interaction parameter CDD with the energy transfer interaction parameter CDA（1.794×10-40 cm6/s）, it was concluded that the energy migration rate between Nd3＋ ions in YAG laser crystal was about 11 times larger than the energy transfer rate, and that energy migration played a very important role in high concentration Nd3＋-doped YAG laser crystal.

弹载SAR大斜视改进CS成像算法

针对弹载SAR在成像过程中复杂的运动状态,以及大斜视所造成的频谱混叠问题,建立了大斜视加速运动模型。引入新的CS因子,有效解决了距离频谱混叠问题并补偿了导弹在三方向速度和加速度的影响;引入方位deramp处理方法,有效解决了方位多普勒频谱混叠问题。仿真结果表明该方法优于现有算法。

基于优化迭代算法的细胞荧光光谱解析

使用光谱测量方法进行细胞多色荧光分析时,发射光谱会产生部分光谱重叠,为定性和定量分析造成了一定的困难。为此,提出基于优化迭代算法的细胞荧光光谱解析算法,建立重叠峰模型并确定单峰顶点;根据每次构造峰面积的大小,重新确定构造峰的构造方式,最终得到模拟峰的顶点及面积信息。利用该算法对高斯函数叠加形成的重叠峰进行解析,并与常规方法进行对比,结果表明优化迭代算法解析误差稳定在0.15%以内;加入随机噪声后,解析误差可稳定在0.85%以内,均优于另外两种算法。此外,计算了该算法下的迭代效率,结果表明该算法较常规方法提高了32.2%。

稀土离子发光体系中多重态间能量传递的谱交迭模型的研究

以KY3F1 0 ∶Tm3+ 体系的光谱实验数据为基础 ,研究讨论了关于多重态间能量传递平均速率的Kushida谱交迭公式。首先 ,藉助I H ,Y T模型拟合了Tm3+ 的3H4 的发光衰减曲线 ,得到了相应的能量迁移和能量传递 (交叉弛豫3H4 + 3H6 →3F4 + 3F4 )的作用参数CDD和CDA的拟合值。通过和Kushida公式比较得到了相应的平均交迭积分的拟合值SDD和SDA。对于能量迁移的平均交迭积分SDD,研究了“求和平均”的方法和含义 ,建议在SDD的计算公式中应该考虑禁戒跃迁的贡献。提出只要在分析施主的发射谱和受主的吸收谱的振子强度时计入声子边带的贡献 ,就可将Kushida的电偶极 电偶极共振能量传递平均速率的谱交迭公式推广应用到声子协助的非共振D A能量传递中。讨论了在SDA的计算中有关声子边带的强度、宽度等问题 ,并得到了较合理的结果。

相干散射的非吸收粒子辐射计算搭接

针对非吸收性光学厚纤维材料中光谱辐射传输,考虑高密度粒子分布下粒子间相互干扰对光谱辐射传输计算域搭接过程的影响,建立了光谱辐射整体传输计算的搭接模型。采用时域有限差分(FDTD)计算得到单个非吸收性纤维粒子的辐射性质为基础参数,基于数值仿真分析了2～5μm波长下材料厚度、纤维粒子间隔、排列方式对材料宏观透过率的影响。通过比较不同搭接域的计算结果与真实值的差异,发现非吸收纤维对光谱辐射的反射集中在材料入射面附近区域,并且搭接模型对错序排列的纤维材料适用性更好。