Frontiers in Circularly Polarized Phosphorescent Materials

Circularly polarized luminescence (CPL) materials have received increasing attention in recent years. Amongst various CPL materials, circularly polarized phosphorescence (CPP) materials featuring long life-time represent a novel research frontier and exhibit promising applications in various fields. Herein, the state-of-the-art advances of CPP materials are systematically summarized, as classified into transition metal complexes, organic small molecules, polymers, and organic/inorganic hybrid materials. Besides, the recent applications of CPP materials in organic light-emitting diodes and encryption display are also summarized. Furthermore, the current challenges and future perspectives are put forward. It is expected that this review will offer more inspirations for the future rational design of advanced CPP materials, thus further promoting their future practical applications.     

THz antennas design,developments, challenges,and applications: A review

Terahertz (0.1–10 THz) wireless communication will be the future technology to reach a top-notch data rate. THz is one of the most promising candidates for 6G systems because it provides enormous bandwidth, up to 100 GHz, and a massive data rate of up to 1 Tbps. THz antennas, antenna arrays, and MIMO antenna arrays in 6G are hot research topics for implementing 6G wireless communication systems. The 6G aims to continue to enhance the features of the 5G as it is capable of achieving the maximum high-speed data rate, excellent reliable communication, massive connectivity, and very low latency connectivity. The 6G requirements need high-gain antenna arrays and MIMO antenna arrays to combat the effect of atmospheric losses in high frequencies. An in-depth discussion of the planar THz antennas that have been extensively used in THz applications like imaging, sensing, and Internet-of-Things (IoT) has been conducted. The study of the THz antennas, antenna arrays, and MIMO antennas on different conducting materials such as copper and graphene, which are designed on different dielectric substrates such as polyimide, quartz, liquid crystalline polymer, and polytetrafluoroethylene, has been carried out in detail. Metamaterial, photoconductive, plasmonic antennas, and THz beamforming are significant parts of THz communications. This paper also provides antennas and antenna arrays based on them.     

Modeling and Simulation of New Encoding Schemes for High‐Speed UHF RFID Communication

In this paper, we present novel high‐speed transmission schemes for high‐speed ultra‐high frequency (UHF) radio‐frequency identification communication. For high‐speed communication, tags communicate with a reader using a high‐speed Miller (HS‐Miller) encoding and multiple antennas, and a reader communicates with tags using extended pulse‐interval encoding (E‐PIE). E‐PIE can provide up to a two‐fold faster data rate than conventional pulse‐interval encoding. Using HS‐Miller encoding and orthogonal multiplexing techniques, tags can achieve a two‐ to three‐fold faster data rate than Miller encoding without degrading the demodulation performance at a reader. To verify the proposed transmission scheme, the MATLAB/Simulink model for high‐speed backscatter based on an HS‐Miller modulated subcarrier has been designed and simulated. The simulation results show that the proposed transmission scheme can achieve more than a 3 dB higher BER performance in comparison to a Miller modulated subcarrier.     

K波段宽带螺旋天线设计

从理论上分析了螺旋天线的设计原理,利用阿基米德螺旋天线实现了一款K波段的高频宽带螺旋天线,使高频天线拥有更轻的质量,更低的剖面及更好的圆极化性。最后通过仿真软件CST设计了一款带宽覆盖18.0~26.5GHz的阿基米德螺旋天线,涵盖了整个K波段。结果表明,该天线在整个频段电压驻波比<2,能很好的满足天线收发要求。     

表面波对收发天线隔离度的影响及其解决方法

表面波引起的收发天线耦合是影响天线接收性能的重要因素。天线表面覆盖天线罩后,耦合信号能量明显增强,通过分析天线罩对表面波的激励作用,找到敏感参数,进而提出了降低耦合的方法,并通过仿真和实测验证。     

一种应用于5G毫米波通信的双极化有源相控阵模组

针对5G毫米波通信,研制了一种双极化有源相控阵天线模组。厚度为2 mm的多层PCB正面印制阵列天线,在其背面集成多通道波束成形芯片,通过中间层实现天线与芯片的互连以及供电、控制等。测试结果表明,研制的板状4×4双极化相控阵模组在E面和H面均实现了不小于±40度的波束扫描范围（不大于3 dB的电平下降）和低于-18 dB的归一化交叉极化电平,在24～27.5 GHz的频率范围内实现了V极化和H极化分别为42.6～45.7 dBm和43.5～46.1 dBm的等效全向辐射功率（EIRP）。     

浅谈短波天线的维护和保养

随着小功率短波实验台的不断建设,如何更好的利用和维护天线成了各短波实验台站关注的问题。本文以我台的垂直笼型天线为例进行介绍。垂直笼型天线在短波广播频段的中低频段具有较强的地波全向辐射能力,主要用于对城区和附近周边地区进行压制干扰。     

用于光无线局域网的通信系统设计

主要针对在点对点的光无线通信系统基础上组建而成的光无线局域网,具体描述了应用于光无线局域网的光无线通信系统的组成和原理,主要包括通信系统的光源的选择、发射电路的设计、接收光电二极管的选择、接收电路的设计以及发射和接收天线的选择。这种设计具有可靠性、数据传输速率高、成本低、抗电磁干扰能力和抗衰弱能力强、带宽高、器件尺寸小等优点。     

一种确定波片快慢轴方位的新方法

提出了一种新的波片快慢轴的确定方法,此方法是将待测波片置于起偏器和检偏器之 间,通过旋转待测波片,对出射光的光强进行两组数据测量,就可以确定待测波片的某一光学主轴,再通过判断出射光的偏振态来确定该光学主轴是快轴还是慢轴。本方法对测量用的光源波长、光电探测器的线性、暗流及各向同性性均没有要求,可以确定出任何相延角波片的快慢轴,定轴精度可达±0. 1°。     

A dual-band CP dual-orthogonal arms monopole antenna with slanting edge DGS for C-band wireless applications

This communication describes a novel design of circularly-polarized (CP) monopole antenna for dual-band performance. The proposed design offers an impedance bandwidth (IBW) of 3.7 GHz in the frequency range 2.9–6.6 GHz in the lower band and 1 GHz (7.7–8.7 GHz) in the upper band. Proposed antenna has a wide CP (3 dB axial-ratio) bandwidth of 2.42 GHz (46.6%) in lower band (4.08–6.5 GHz) and 300 MHz in upper frequency band (8.1–8.4 GHz). The CP bandwidth is achieved through dual orthogonal arms and slanting edge defected ground structure (DGS). Proposed antenna is suitable for the C-Band wireless applications including WLAN, Wi-MAX communication systems.