We propose and experimentally demonstrate a high quality (Q)-factor all-silicon bound state in the continuum (BIC) metasurface with an imperforated air-hole array. The metasurface supports two polarization-insensitive BICs originated from guided mode resonances (GMRs) in the frequency range of 0.4 to 0.6 THz, and the measured Q-factors of the two GMRs are as high as 334 and 152, respectively. In addition, the influence of the thickness of the silicon substrate on the two resonances is analyzed in detail. The proposed all-silicon THz metasurface has great potential in the design and application of high-Q metasurfaces.

为提高在役高压电缆X射线扫描图像重建速度，结合传统的滤波反投影算法，提出基于数据平滑的局部扫描重建算法。分析了源直线扫描局部计算机断层成像方法存在的有限角和数据截断问题，提出数据平滑方式解决方法。主要途径是利用余弦函数沿探测器方向和射线源方向分别进行数据平滑插值，避免投影数据值在这两个方向上突然降为零，起到抑制截断伪影和有限角伪影的作用。实验证明，所提方法能有效抑制图像伪影，有利于电缆阻水缓冲层缺陷识别。相较于原有的联合迭代重建算法，该方法缩短了重建时间且图像重建质量相当；相较于传统滤波反投影算法，重建图像质量提高但重建耗时基本一致。

Interface states are widely applied in waveguide devices. However, previous studies failed to achieve photonic and phononic interface states independent of each other in the same crystal structure depending on the behavior of the crystal structure, i.e., photonic or phononic crystals, making the function of interface states single. In this study, straight-line and circular photonic and phononic interface states were realized independently in sunflower-type crystals. In addition, with a defect and a metal barrier, interface states could remain almost undamaged. The results have the potential to achieve multi-function devices and reduce the cost of engineering applications.

In the fields of light manipulation and localization, quasiperiodic photonic crystals, or photonic quasicrystals (PQs), are causing an upsurge in research because of their rotational symmetry and long-range orientation of transverse lattice arrays, as they lack translational symmetry. It allows for the optimization of well-established light propagation properties and has introduced new guiding features. Therefore, as a class, quasiperiodic photonic crystal fibers, or photonic quasicrystal fibers (PQFs), are considered to add flexibility and richness to the optical properties of fibers and are expected to offer significant potential applications to optical fiber fields. In this review, the fundamental concept, working mechanisms, and invention history of PQFs are explained. Recent progress in optical property improvement and its novel applications in fields such as dispersion control, polarization-maintenance, supercontinuum generation, orbital angular momentum transmission, plasmon-based sensors and filters, and high nonlinearity and topological mode transmission, are then reviewed in detail. Bandgap-type air-guiding PQFs supporting low attenuation propagation and regulation of photonic density states of quasiperiodic cladding and in which light guidance is achieved by coherent Bragg scattering are also summarized. Finally, current challenges encountered in the guiding mechanisms and practical preparation techniques, as well as the prospects and research trends of PQFs, are also presented.

大型天线面板在使用的过程中受到环境及自身重力的影响，不可避免会发生形变，对天线性能产生影响。针对大型天线面板形变的快速动态检测需求，设计了基于高精度三维激光扫描仪的天线面板形变测量方案。采用拟合抛物面的算法进行点云数据配准，统计学和曲面拟合算法进行滤波和天线面板形变分析，通过测量、分析处理天线面板点云数据，获得了70 m天线面板形变信息，实现了高效率、高精度和自动化的大型天线面板形变检测。

提出了一种散射子尺寸梯度型光子晶体平板透镜，该透镜在TM偏振和TE偏振模式下可同时实现对点光源的成像及对平面波的聚焦，且在TM偏振模式下成像及聚焦均突破了衍射极限，而在TE模式下均实现了亚波长成像及聚焦。该平板透镜无需任何偏振附加组件便可实现偏振不敏感成像及聚焦，有望用于设计多功能新型光学偏振不敏感成像及聚焦器件，可应用于实时生物显示、高密度光存贮及微电子光刻等领域，提高梯度光子晶体平板透镜的应用潜力。