Digitalized Mirror Array and Its Application in Large Telescope： Principle and Case Studies

In this article, we report the principle and conceptual design of a fundamentally different technology in fabricating high precision aberration free optical devices. The tip-tilt of facet in a mirror array is produced by digitally controlled line-tilts of rows and columns. It has not only provided a cost-effective designing methodology in optical physics but also led to a much finer precision of 1 mili arc sec or less. As examples of the application of the proposed digitalised optics, two case studies have been given： a 10 m Schmidt telescope （off-axis） and an 8 m Cassegrain telescope （on-axis）.     

Nanoscale Thermal Response in ZnO Varistors by Atomic Force Microscopy

We report the application of customer-built scanning thermal microscopy （SThM） based on a commercial atomic force microscope to investigate local thermal inhomogeneity of ZnO varistors. The so-called 3ω method, generally used for measuring macroscale thermal conductivity, is set up and integrated with an atomic force microscope to probe the nanoseale thermal property. Remarkably, thermal contrasts of ZnO varistors are firstly imaged by the SThM, indicating the uniform distribution of spinel phases at triple points. The frequency-dependent thermal signal of ZnO varistors is also studied to present quantitative evaluation of local thermal conductivity of the sample.     

A Criterion for Stability of Synchronization and Application to Coupled Chua＇s Systems

We investigate synchronization in an array network of nearest-neighbor coupled chaotic oscillators. By using of the Lyapunov stability theory and matrix theory, a criterion for stability of complete synchronization is deduced. Meanwhile, an estimate of the critical coupling strength is obtained to ensure achieving chaos synchronization. As an example application, a model of coupled Chua＇s circuits with linearly bidirectional coupling is studied to verify the validity of the criterion.     

长亚甲基链段改性固化剂的制备与性能

采用二官能度环氧树脂对己二胺进行改性,得到了含多段长亚甲基链段的柔性固化剂。利用红外光谱表征其基本结构。采用环氧树脂E-44与之进行固化,通过不同温度下固化时间对力学强度影响的分析,初步确定其最佳固化条件为80 ℃,6 h。通过热重分析检测不同固化比例下固化产物的热稳定性,并采用差示扫描量热法研究该固化剂的固化动力学参数、反应活性、最佳固化温度及时间。对其固化物拉伸剪切强度进行测试,测试结果表明：在固化比例为1:0.5时,在-196 ℃、室温、60 ℃下的拉伸剪切强度分别为16.84,14.73和13.52 MPa,基本满足实际应用的需求。     

《原子核物理评论》征稿简则

1.本刊贯彻"百花齐放,百家争鸣"的方针,报道原子核物理基础研究及其应用研究以及与此有关的交叉学科研究领域的最新重要研究成果和发展趋势,促进本学科及相关交叉学科的发展,增进国内外学术交流。主要刊登反映本学科及相关各交叉学科领域最新进展的评述性文章,同时及时发表最新重要研究成果的学术论文。栏目有:核物理、加速器(物理     

圆形射流湍流场的大涡模拟研究

使用发展的大涡模拟并行程序,数值模拟了圆形射流湍流场,与实验值进行详细比较,对大涡模拟程序进行检验,并分析网格尺度对计算结果的影响。结果表明,大涡模拟计算的平均速度场和雷诺应力场与实验值符合得非常好,验证了该大涡模拟计算程序的可靠性和精确度。同时发现一阶统计矩受网格尺度影响不大,二阶及高阶矩与网格尺度有较大的关系,因此使用大涡模拟方法计算湍流及湍流燃烧问题应对网格依赖性进行必要分析,至少保证二阶统计矩具有较好的精度。     

阿尔泰推出高速高精度PXI/PCI-85XX系列数字化仪

针对高速高精度的应用需求,我公司推出采样率从1MS/s到150MS/s,精度从8bit到16bitPXI/PCI-85XX系列数字化仪,板卡搭配低相噪数字时钟芯片、精密校准电路及高性能ADC,使其具有高精度、低噪声和高动态范围的性能。阿尔泰科技数字化仪主要包括以下产品:PCI/PXI-8520,PCI/PXI-8502,PCI/PXI-8512,PCI/PXI-8522,PCI/PXI-8532,PCI/PXI-8552,PCI/PXI-8504,PCI/PXI-8514,PCI/PXI-8524,PCI/PXI-8501,PCI/PXI-8506。     

基于SOI的亚波长偏振分束器的研究

运用严格耦合波理论对亚波长光栅的模场分布进行讨论,通过位相匹配方程建立衍射级、光栅矢量和波导传输常数的关系,得到波导光栅实现偏振分束功能时对应的设计参数;针对布拉格反射层良好的反射特性,设计了一种亚波长偏振分束器。为了提高光栅的耦合效率,在基底增加Bragg反射层,将传统偏振分束器的透射光反射,与输入光相干叠加,满足相位匹配条件后耦合输出,使耦合效率大大增加。     

Research on application of MOOC in optical packet switching

An experiment on receiving and identifying multiple optical orthogonal codes （MOOC） sequence-based optical labels in an optical packet switching （OPS） network is reported. Two groups of MOOC with a code length of 23 and a code weight of 3 are used to identify the optical labels. The scheme and principle of OPS networks based on MOOC sequence-based optical labels are presented. Because optical labels contain OPS and routing information, the importance of optical label processing with multiple inconsecutive, random, and burst optical labels in an OPS network is pointed out. Considering the MOOC-based optical labels, we design a circuit consisting of a broadened network and a cascaded amplifier to receive multiple groups of low-power narrow pulses （optical labels in the MOOC-OPS network） with a period of 2 ns. The successful experimental results demonstrate that the designed scheme is feasible.     

运用基于实物载体的“ 问题链”组织教学

物理课堂教学中, 以生活、 生产、 科技及社会各领域的某一具体物品或事件为载体, 集中设置指引学习 探究活动的“ 问题链” , 能加强物理知识与实际生活的联系, 提高学生的学习兴趣和热情, 强化知识的逻辑性与整体 性, 有利于学生更好地学习和运用物理知识, 充分感受物理学科独特魅力