模糊值函数的t-余模积分

给出了模糊值函数关于t-余模、 -分解测度的t-余模、 -积分(简记为 -积分)的定义,并讨论了模糊值函数 -积分的一些性质和单调收敛定理.这种积分是模糊值函数Lebesgue积分的推广,也是实值函数 -积分的推广.     

铝双层板结构的前板厚度对撞击损伤影响的实验研究

低地球轨道上的航天器易受到微流星体和空间碎片的超高速撞击,导致其严重损伤甚至灾难性的失效。撞击损伤特性研究是航天器防护设计的重要问题。本文采用非火药驱动二级轻气炮发射球形弹丸,对铝双层板结构进行超高速撞击实验研究,从而模拟空间碎片对航天器防护结构的超高速撞击作用。实验得到了铝双层板结构在弹丸撞击速度为2.33±0.12km/s和4.36±0.10km/s两种情况时,其前板和后板的撞击损伤随前板厚度变化的规律,随着前板厚度的增加,前板穿孔直径增大,后板撞击中心的损伤减轻,后板上大弹坑由撞击中心移至外围。当撞击速度超过弹丸破碎速度时,后板上将出现弹坑密集分布区。实验结果表明,前板厚度的选取对双层板结构的撞击损伤区域会产生影响。     

Study on the novel neutron-to-proton convertor for improving the detection efficiency of a triple GEM based fast neutron detector

A high-efficiency fast neutron detector prototype based on a triple Gas Electron Multiplier(GEM) detector, which, coupled with a novel multi-layered high-density polyethylene(HDPE) as a neutron-to-proton converter for improving the neutron detection efficiency, is introduced and tested with the Am-Be neutron source in the Institute of Modern Physics(IMP) at Lanzhou in the present work. First, the developed triple GEM detector is tested by measuring its effective gain and energy resolution with55 Fe X-ray source to ensure that it has a good performance.The effective gain and obtained energy resolution is 5.0×104and around 19.2%, respectively. Secondly, the novel multi-layered HDPE converter is coupled with the cathode of the triple GEM detector making it a high-efficiency fast neutron detector. Its effective neutron response is four times higher than that of the traditional single-layered conversion technique when the converter layer number is 38.     

周视彩虹全息术

本文一改以往平板彩虹全息图垂直于全息图面观察的形式,给出一种几乎平行于全息图面观察的周视彩虹全息图的制作技术,这种全息图观察范围为360°最后给出了实验结果,并作了讨论.     

基于阳离子共轭聚合物比色检测HIV逆转录酶的RNase H活性

利用阳离子聚噻吩衍生物与单链DNA和杂合体DNA/RNA通过静电相结合时所产生的紫外吸收变化,建立了一种检测HIV逆转录酶(RT-HIV)的RNase H活性的方法。阳离子聚噻吩衍生物的紫外吸收最大波长位于短波385nm,与单链DNA结合会使聚噻吩衍生物的紫外吸收最大波长红移至525nm;而与杂合体DNA/RNA结合时对其紫外吸收最大波长几乎没有影响,当利用RT-HIV的核糖核酸酶RNase H活性水解掉杂合体中的RNA时,杂合体溶液又会使聚噻吩衍生物的紫外吸收最大波长发生红移。结果表明,紫外吸收最大波长变化明显,甚至直观用肉眼就可以观察到杂合体水解前后溶液颜色的变化。同时还测定了不同时间下RNase H酶水解杂合体中RNA的吸光度变化曲线,计算出了RNase H酶水解的动力学常数和最大初速度。     

超高速撞击Kevlar纤维布填充防护结构研究

 利用二级轻气炮,对Kevlar纤维布填充Whipple防护结构进行了超高速撞击实验研究。基于Nextel/Kevlar撞击极限曲线,分析了单层及双层Kevlar纤维布填充防护结构的防护性能以及填充材料、舱壁的损伤情况。实验表明,Kevlar纤维布填充Whipple防护结构在低速区具有优良的防护性能。分层布局可改善Kevlar纤维布填充Whipple防护结构在低速区的防护性能。在低速区,Kevlar纤维丝主要依靠大量的塑性变形及断裂吸收弹丸的动能;在高速区,Kevlar纤维丝存在高温熔化及碳化现象,使弹丸破碎或熔化为更小的碎片或熔球,从而减轻对舱壁的损伤。     

Hydrogenic systems,frequency standards and fundamental constants

Hydrogenic (two-body) systems are the only atomic systems for which uncertainties in calculations of the energy levels approach the current state of the art in frequency measurement. This article discusses progress in the theory and measurement of transition frequencies in hydrogenic systems. These studies have relevance to the determination of fundamental constants and the testing of physical theories, especially quantum electrodynamics. A set of high accuracy calculable frequency standards could also be realized by using hydrogenic systems.     

基于模糊积分的Fisher判别分析

文中引进一种新的非线性判别分析-基于Choquet模糊积分的Fisher判别分析,该基于Choquet模糊积分的Fisher判别分析方法可充分考虑到输入的各指标之间的交互作用,当模糊测度μ具有可加性时,基于Choquet模糊积分的Fisher判别分析方法就是经典的Fisher判别分析.最后将此方法应用于心肌梗死的鉴别诊断.     

铝球弹丸超高速斜撞击薄铝板特性研究

 利用2017铝合金球形弹丸超高速斜撞击2A12铝合金薄板，模拟空间碎片对航天器防护屏的超高速撞击作用。分析了铝合金薄板超高速斜撞击穿孔特性与弹丸滑弹返溅特性，建立了铝合金球形弹丸超高速斜撞击铝合金薄板的穿孔经验公式。弹丸撞击速度分别为2.58、3.56和4.31 km/s，撞击角度为10°~80°。实验结果表明：铝合金薄板超高速斜撞击椭圆穿孔尺寸与撞击速度和撞击角度有关，直径为3.97 mm的铝合金球形弹丸超高速斜撞击厚度为1 mm的铝合金薄板时，发生滑弹返溅的临界撞击角在30°~40°之间。最大滑弹返溅角随着撞击角的增大而逐渐减小，此时滑弹返溅碎片云的影响范围缩小，但破坏能力增强。弹丸撞击速度对铝合金薄板超高速斜撞击穿孔的椭圆度影响较小。     

常温预辐射聚合法物理包埋葡萄糖氧化酶的研究

Most of bioactive species such as enzyme and antibody will be damaged and lose part of their bioactivity when they are irradiated by ionizing radiation at room temperature. Low temperature could somewhat control the effect, so kaetsu and his co-workers developed an entrapping technique at low temperature ( - 78℃). On the other hand, some enzymes such as catalase and house radish peroxidase have so-called radiation-induced post-deactivation effect as well. In order to avoid the trouble in performance and loss of bioactivity, a physical ent-rapping of bioactive species via preirradiation polymerization at room temperature were deve-loped in the Authors'lab. In this work we developed this technique. The glucose oxidase was entrapped in polyacrylamide hydrogel ind uced by pre-irradiation. Experiments under several different conditions such as absorbed dose and concentrations of enzymes,monomer and crosslinking agent were carried out. The results showed that this technique can be used ex-tensively in various enzyme.