《光通信、传感与激光应用》特刊

IF 2.3 4区 计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Ming Tang, Zhenzhou Cheng, Liang Wang, Li Shen
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引用次数: 0

摘要

本期特刊重点介绍光通信、光传感和激光应用方面的最新研究进展,重点介绍光纤通信系统/子系统;光信号处理;光纤传感器和设备;以及硅光子学、调制器、光电集成电路的各种应用。它汇集了来自广泛跨学科领域的杰出国际领导人、研究人员、科学家和工程师的贡献,展示了他们在光通信、光传感和相关激光技术的科学、技术和应用方面的工作。在本期特刊中,我们共接收了5篇论文,主要分为光通信和光传感两大类。属于第一类的论文展示了光开关和调制器方面的新颖性。该类论文来自Zhentian Shan et al.和Yue Wu et al.。第二类论文为光学传感在环境和生物医学监测中的应用提供了直接的解决方案。这些论文来自李慕鹏等人,Majid Mafi等人,张颖等人。本特刊每篇论文的简要介绍如下:Zhentian Shan等人报道了一种由步进电机驱动的1*48大型多模光纤开关。插入损耗为1.42 dB,优化后可进一步降低至1.02 dB。光学器件采用角立方棱镜,具有良好的重复性,可达<±0.01 dB。yue Wu等人提出了一种考虑电带宽的微环调制器(MRM)的PN耗尽区的新掺杂谱图,其中掺杂浓度水平为四种。通过增加电带宽,增加了光电(EO)带宽。对该MRM进行了特性分析,并应用于波分复用发射机。通过测试,所设计的MRM发射机能够以52 Gbps的速率传输PAM4信号,表明该MRM具有实现50 Gbps/ch光互连的潜力。李慕朋等综述了布里渊光时域反射法(BOTDR),它是分布式光纤传感的一个分支,可以测量应变和温度信息。本文综述了BOTDR系统中检测脉冲设计的最新进展,全面论证了各种脉冲调制格式对系统性能的改善作用。Majid Mafi等人利用反设计方法对具有最大稳定输出透过率的高质量多用途生物传感器进行了数值研究。本文提出的生物传感器利用粒子群优化进行逆向设计,为今后设计不同类型的精密传感器提供了一种有益的方法。该传感器首次可以在一个设备中检测血液成分的不同部分,尿液中的葡萄糖量和泪液中的葡萄糖。该结构以高质量因子和高稳定的输出透射光谱检测折射率分析物之间的差异。张颖等介绍了一种基于光声光谱(PAS)的亚ppm级SO2F2和SOF2气体传感器。他们设计并制造了一个谐振频率为1750hz的钢谐振光声电池。该传感器在动态范围内具有良好的线性性能,SO2F2和SOF2的最低检测限分别为0.22 ppm和0.28 ppm。这表明在气体绝缘开关设备中监测SF6分解过程具有很大的潜力。所有入选本期特刊的论文都表明,光通信与传感领域正在稳步向前发展。本特刊重点介绍了光通信、光传感和相关激光技术的最新进展,涵盖了新原理、新系统和新应用方面的最新技术发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Special issue “optical communications, sensing, and laser applications”

This Special Issue highlights topics relating to recent research advances in optical communications, optical sensing and laser applications, emphasising fibre-optic communication systems/sub-systems; optical signal processing; optical fibre sensors and devices; and various applications of silicon photonics, modulators, and optoelectronic integration circuits. It brings together contributions by outstanding international leaders, researchers, scientists, and engineers from a broad range of interdisciplinary fields to present their work in the science, technology, and applications of optical communications, optical sensing, and related laser techniques.

In this Special Issue, we have accepted five papers, which can be clustered into two main categories, namely optical communications and optical sensing. The papers falling into the first category exhibit novelties in optical switches and modulators. The papers in this category are from Zhentian Shan et al. and Yue Wu et al. The second category of papers offers direct solutions to optical sensing with applications to environmental and biomedical monitoring. These papers are from Mupeng Li et al., Majid Mafi et al., and Ying Zhang et al. A brief presentation of each paper in this special issue is as follows:

Zhentian Shan et al. report a 1*48 large-scale multi-mode fibre optical switch driven by a stepper motor. The insertion loss is <1.42 dB, which can be further reduced to 1.02 dB after optimisation. With the employment of a corner cube prism in the optics, the device is characterised by good repeatability of <±0.01 dB. The device has a fast response of <8 ms.

Yue Wu et al. present a new doping profile of the PN depletion region with four doping concentration levels for Microring modulator (MRM) considering the electrical bandwidth. By increasing the electrical bandwidth, the electro-optical (EO) bandwidth is increased. The MRM is characterised and is applied in a WDM transmitter. By the measurement, the transmitter with the designed MRM could transmit PAM4 signal at 52 Gbps rate, which indicates the MRM could be potential for the 50 Gbps/ch optical interconnection.

Mupeng Li et al. give a review on Brillouin optical time-domain reflectometry (BOTDR), which is a branch of distributed fibre-optic sensing, and can measure the strain and temperature information. This paper summarises the recent progress in the design of detection pulses in BOTDR systems and comprehensively demonstrates the improvement effects of various pulse modulation formats on the system performance.

Majid Mafi et al. investigate a high-quality and multi-purposed biosensor with maximum stable output transmittance numerically by using the inverse design method. The proposed biosensor utilises particle swarm optimisation for inverse design, which will be a helpful way of designing different kinds of precise sensors in the future. The proposed sensor can sense different parts of blood components, the amount of glucose in the urine, and tear's glucose for the first time just in one device. This structure detects the differences between refractive index analytes with a high-quality factor and a high and stable output transmittance spectrum.

Ying Zhang et al. introduce a sub-ppm-level SO2F2 and SOF2 gas sensor based on photoacoustic spectroscopy (PAS). They design and fabricate a steel resonant photoacoustic cell with a resonant frequency of 1750 Hz. The proposed sensor has performed with favourable linearity within the dynamic range and reached the minimum detection limit of 0.22 ppm for SO2F2 and 0.28 ppm for SOF2. It indicates great potential for monitoring the decomposition process of SF6 in Gas-Insulated Switchgear.

All of the papers selected for this Special Issue show that the field of optical communications and sensing is steadily moving forward. This Special Issue focuses on the state-of-the-art of optical communications, optical sensing, and related laser techniques, covering recent technological developments in new principles, systems, and the emerging applications.

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来源期刊
Iet Optoelectronics
Iet Optoelectronics 工程技术-电信学
CiteScore
4.50
自引率
0.00%
发文量
26
审稿时长
6 months
期刊介绍: IET Optoelectronics publishes state of the art research papers in the field of optoelectronics and photonics. The topics that are covered by the journal include optical and optoelectronic materials, nanophotonics, metamaterials and photonic crystals, light sources (e.g. LEDs, lasers and devices for lighting), optical modulation and multiplexing, optical fibres, cables and connectors, optical amplifiers, photodetectors and optical receivers, photonic integrated circuits, photonic systems, optical signal processing and holography and displays. Most of the papers published describe original research from universities and industrial and government laboratories. However correspondence suggesting review papers and tutorials is welcomed, as are suggestions for special issues. IET Optoelectronics covers but is not limited to the following topics: Optical and optoelectronic materials Light sources, including LEDs, lasers and devices for lighting Optical modulation and multiplexing Optical fibres, cables and connectors Optical amplifiers Photodetectors and optical receivers Photonic integrated circuits Nanophotonics and photonic crystals Optical signal processing Holography Displays
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