Contents
2022
Volume: 51 Issue 5
54 Article(s)

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Low phase noise microwave signal generation with microcombs (Invited)
Jiachuan Yang, Rongwei Liu, and Xiaopeng Xie
Microwave signals with low phase noise are indispensable in wireless communication, radar, time and frequency metrology, and deep astronomy. Photonic microwave signal generation approaches are promising. They can break through the bottleneck of classical microwave signal generation methods in many aspects, such as carr
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220236 (2022)
[in Chinese]
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Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220276 (2022)
Image Processing
Local neighborhood feature point extraction and matching for point cloud alignment
Mingjun Wang, Fang Yi, Le Li, and Chaojun Huang
Point cloud registration is one of the key technologies for 3D reconstruction. To address the problems of the iterative closest point algorithm (ICP) in point cloud matching, which requires high initial position and low speed, a point cloud registration method based on adaptive local neighborhood feature point extracti
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210342 (2022)
Laser altimetry data processing and combined surveying application of ZY3-03 satellite
Guoyuan Li, Xinming Tang, Ping Zhou, Jiyi Chen, Zhao Liu, Xianhui Dou, Xiaoqing Zhou, and Xia Wang
ZY3-03 is a land remote sensing satellite for 1: 50 000 stereo mapping built by the Ministry of Natural Resources. It is equipped with operational laser altimeter, which is mainly used to obtain high-precision elevation control points. In this paper, aiming at the laser altimetry data of ZY3-03 satellite, the standardi
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210356 (2022)
Multi-image optical encryption method of JTC system combining CGH and frequency shift
Wei Zheng, Sixing Xi, Guilin Wang, Yonghong Li, and Qichang Jiang
In order to improve the practicability of JTC optical image encryption system, solve its noise problem, improve its encryption efficiency and security, a multi-image optical encryption method based on computer generated hologram (CGH) and the frequency shift of Fourier transform was proposed. Firstly, each image with d
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220175 (2022)
Infrared Technology and Application
Infrared image target recognition method based on selected deep features
Shasha Liao
Infrared imaging is an important means of modern battlefield reconnaissance, and target recognition technology based on infrared images can provide important support for intelligence interpretation. Aiming at target recognition in infrared images, a method based on selected deep features was proposed. A ResNet with a p
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210372 (2022)
Fire detecting system of engine bay based on infrared imaging technology
Lijun Wang, Junjuan Guan, Zhiyong Qin, Jian Chen, and Pengyuan Ji
Fire detecting system is a important part of the fire extinguishing and the explosion suppression equipments which can be used to protect the safety of people when the fire broke out in special vehicles. The systems based on temperature sensor and non-imaging photo-detector which are usually used now have some problems
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210384 (2022)
J-MSF:A new infrared dim and small target detection algorithm based on multi-channel and multiscale
Guogang Wang, Zhaojin Sun, and Yunpeng Liu
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210459 (2022)
Non-uniformity correction algorithm of space-borne long-wave infrared focal plane arrays based on improved Gamma curve
Dabao Wang, Zhongguo Wang, Mingxuan Wu, Chao Zhang, and Yue Hu
With the progress of long-wave infrared detector technology, space-based infrared remote sensing satellite technology has developed rapidly by selecting Aerospace large array long-wave infrared detector. The response of long-wave infrared detectors is strongly nonlinear, which leads to large correction errors in tradit
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210510 (2022)
Double channels diffractive computational imaging spectrometer system
Haibo Zhao, Yanli Liu, Wenshuo Yang, Yun Su, Dahua Gao, Quansen Sun, and Huijie Zhao
The conventional diffraction spectrum imaging system adopts the single channel scheme, which mainly carries out simulation and spectral imaging experiments for simple graphic targets or gas targets with known spectral characteristics. When the target is a complex scene such as natural scene, the spectral solution effec
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220077 (2022)
Invited Paper
Applications of scene calculations of atmopsheric radiative transfer by using of CART (Invited)
Heli Wei, Congming Dai, Pengfei Wu, Jianyu Li, Fengying Sun, Chaoli Tang, Honghua Huang, Xuebin Li, Wenyue Zhu, Ruizhong Rao, and Yingjian Wang
A Combined Atmospheric Radiation Transfer (CART) software was developed, which could be used to calculate the spectral transmittance and background radiation (including ambient scattered solar radiation and thermal radiation) of the atmosphere from visible to far infrared wavelength bands based on atmospheric parameter
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210916 (2022)
Lasers & Laser Optics
Study of high-temperature operating oxide-confined 894 nm VCSEL with fundamental transverse mode emission
Qiuhua Wang, Ming Li, Pingping Qiu, Wei Pang, Yiyang Xie, Qiang Kan, and Chen Xu
Aiming at the requirements of the mode and operating temperature of vertical-cavity surface-emitting laser (VCSEL) used as the laser source system of the atomic clock (Cesium) chip, the 894.6 nm oxide-confined fundamental transverse mode VCSEL that could operate at high temperature was reported. By reducing the diamete
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 2021G007 (2022)
Radiation effect of 850 nm vertical-cavity surface-emitting laser
Jiawei Chen, Yudong Li, Liya Ma, Yu Li, and Qi Guo
To explore the degradation and mechanism of 850 nm high-speed vertical-cavity surface-emitting laser in space radiation environment, the degradation of light output power and threshold current were obtained by Gamma ray and 10 MeV proton irradiation. The physical mechanism of VCSEL parameter degradation caused by radia
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210326 (2022)
Polarization characteristics of surface grating vertical cavity surface emitting laser
Ming Li, Yaobin Li, Pingping Qiu, Weinian Yan, Ruiwen Jia, and Qiang Kan
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210332 (2022)
Research on high beam quality 3×1 fiber signal combiner
Min Fu, Zhixian Li, Zefeng Wang, and Zilun Chen
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210354 (2022)
Effects of temperature field on properties of micro-structure of AlSi10Mg with laser metal deposition
Jiaxuan Cai, Le Wan, Shihong Shi, Jie Wu, Qiang Yang, Tuo Shi, and Mengying Cheng
Due to low laser absorption rate and high thermal conductivity, the properties of micro-structure of aluminum alloy formed by laser melting deposition (LMD) are greatly affected by temperature field. In order to analyze the temperature field of annular beam LMD aluminum alloy molten pool and its’ influence, optimize th
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210366 (2022)
Effect of laser scanning speed of the removal quality of rust layer on carbon steel surface
Yafei Xue, Ziyi Luo, Shanguo Han, Detao Cai, Wanghui Xu, Weiping Fang, and Haoting Liu
Laser cleaning of rust layer on the surface of carbon steel was studied by fiber laser, the effect of laser scanning speed on the removal quality of rust layer was studied by white light interferometer, optical microscope and Raman spectrometer. The results show that, when the laser scanning speed is less than 2 000 mm
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210389 (2022)
MPPT integrated simulation system for laser wireless power transmission
Qingdong Yang, Huomu Yang, Jun Wang, Yudan Gou, Sha Wang, and Shouhuan Zhou
In the laser wireless power transmission(LWPT), the wavelength, laser power and temperature of the power transfer laser have a significant influence on the output characteristics of the photocell. The maximum power point tracking(MPPT) can solve the power mismatch problem under the influence of the above factors and im
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210522 (2022)
Effect of waveguide structure on beam quality and power of 905 nm cascade semiconductor lasers with tunnel junctions
Jinchuan Dan, Shaoyang Tan, Bangguo Wang, Yao Xiao, Guoliang Deng, and Jun Wang
In recent years, lidar applications had put forward higher requirements for detection distance and sensitivity. As an ideal light source, 905 nm semiconductor lasers also urgently needed to improve the peak power and beam quality. In this context, the effects of different gain region types and waveguide structures on b
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210979 (2022)
Optical Communication and Sensing
Adaptive demodulation of reflection spectrum intensity of fiber grating link
Genchao Qin, Fanyong Meng, Hong Li, Wei Zhuang, and Mingli Dong
In view of the large difference in the intensity of single channel multi-grating reflection spectrum of demodulator, which leads to the failure of peak-seeking or the increase of peak-seeking error, a method of multiple exposure demodulation in different exposure cycles was proposed to adjust the peak value, and the pe
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20200440 (2022)
Analysis of polarization-maintaining fibers in non-line-of-sight azimuth transmission system
Zhiyong Yang, Junchen Song, Wei Cai, Gaoxiang Lu, and Lina Luo
According to the design requirements of the birefringence of polarization-maintaining fiber in the non-line-of-sight azimuth transmission system, the influence of different types of polarization-maintaining fiber parameters on the birefringence is emphatically analyzed. Firstly, the stress-optical coupling relationship
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210315 (2022)
Demodulation method of overlapping spectrum based on convolutional neural network
Hanlin Liu, Jingtao Xin, Wei Zhuang, Jiabin Xia, and Lianqing Zhu
An FBG spectral demodulation method based on deep learning was studied. The Convolutional Neural Networks(CNN) model was used to deal with the nonlinear sequence model of the overlapping spectrum, and the central wavelength of the overlapping spectrum was predicted and identified through a one-dimensional convolutional
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210419 (2022)
Research on DNN-NOMS decoding method of polarization code in wireless optical communication
Hao Wen, Yang Cao, and Yuchao Dang
Aiming at the problem of poor confidence propagation decoding performance of polarization codes caused by atmospheric turbulence in wireless optical communication, a Deep Neural Networks-Normalized and Offset Min-Sum (DNN-NOMS) decoding method under wireless optical communication was proposed. First, the factor graph o
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210420 (2022)
Optimization of low frequency response performance of phase sensitive optical time-domain reflectometry system
Miao Yu, Mingyang Sun, Yutong He, Chongfu Zhang, Zhifeng Zheng, and Qian Kong
Phase sensitive optical time-domain reflectometry system due to its advantages of distributed optical fiber sensing technology has a high application prospect in low frequency monitoring fields such as distributed hydrophone, fracture micro-seismic detection and natural disaster warning. The problem of different clock
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20211125 (2022)
Optical Design
Research and development of Wide-Field-of-View bionic compound eye photoelectric imaging detection technology
Yanfeng Song, Qun Hao, Jie Cao, Hao Liu, Qianghui Liu, and Jie Li
A multimode, small, Wide-Field-of-View, lightweight, low-cost photodetector is the key to develop the next generation precision-guided munitions. As one of the important representatives, the Wide-Field-of-View photoelectric detection system based on artificial compound eye has been highly valued by the U.S. Air Force.
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210593 (2022)
High numerical aperture bifocal metalens with regulatory focusing intensity
Qingyuan Yang, Wei Wang, and Xiang Tian
The metalenses with focusing and imaging based on metasurfaces, which can manipulate the amplitude, phase, and polarization of light waves, have attracted enormous attentions. A high numerical aperture bifocal metalens with regulatory focusing intensity was designed, and both theoretical analysis and simulation verific
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210602 (2022)
0 g surface figure test of large aperture mirror supported by Bipod
Jiayi Chen, Haichao Wang, Bin Li, Yong Liu, Yanhui Jiang, and Liqiang Yao
Bipod structure has the characteristics of static support and can isolate the additional mechanical load. Therefore, it has become one of the common support forms of large aperture space camera mirror assembly. When installing and adjusting on the ground, the surface figure of the mirror supported by the Bipod decrease
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210604 (2022)
Self-collimating MTF test method and application of space camera
Xin Sun, Yongjian Wu, Tianjin Tang, Yongli Hu, Yong Liu, Yanhui Jiang, and Haichao Wang
MTF test is an important part of the camera manufacture process. General practice of MTF test needs to use the parallel light tube. Self-collimating MTF test method does not rely on the parallel light tube. Firstly, the principle and construction plan of the self-collimating MTF test system were introduced. Secondly, t
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210610 (2022)
Application of C/SiC to secondary mirror bearing cylinder in large aperture space telescope
Shicheng Cui, Zhiqing Song, and Jukui Yang
C/SiC composite material was applied to design of secondary mirror bearing cylinder in large aperture space telescope. Firstly, the material characteristics of C/SiC composite material and the applications in space optical remote sensor were introduced. Secondly, taking secondary mirror bearing cylinder of a large aper
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210710 (2022)
Design and analysis of Lijiang 2.4-meter telescope Nasmyth focus and Cassgrain focus switching system
Xin He, Xiang Jiang, Bozhong Gu, Yu Ye, and Zhongyu Yue
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210881 (2022)
Optical Devices
Prediction analysis of subsurface damage of work-part ZnS in fixed abrasive lapping
Yufei Zhang, Zikun Wang, Weidong Hu, Fengli Niu, and Yongwei Zhu
The subsurface damage of workpiece formed in lapping and polishing process is the main reference to evaluate the quality of processing technology and decide the machining allowance. Therefore, the accurate prediction of subsurface damage is helpful to improve the machining efficiency. Discrete element method (DEM) was
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210303 (2022)
Optical fiber Michelson interference sensor for measuring refractive index
Chen Zheng, Wenlin Feng, Sijie He, and Bangxing Li
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210327 (2022)
Design and fabrication of polarization and phase modulated beam splitter
Yonggang Pan, Sibao Zhang, Zheng Liu, Wencheng Liu, Mian Li, Chunjuan Zhang, and Changxin Luo
Polarization and phase controlled beam splitter is an indispensable optical element in free space quantum communication system. Its performance directly affects the communication quality and determines the communication error rate. Based on the theory of equivalent layer design, the special film structure of ''
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210512 (2022)
Effects of isolation trough on cleavage of InSb chip in InSb detector
Xiaohan Tian, Jiangfeng Zhang, Xiaoling Zhang, and Qingduan Meng
Local cleavage of indium antimonide (InSb) chips restricts the improvement of the yield of InSb infrared focal plane detectors (IRFPAs) under cyclic liquid nitrogen shocking tests. Stress concentration effect may appear in isolation troughs surrounding mesa-junction photosensitive units, drives the dislocation line to
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210599 (2022)
Research advances in optoelectronic devices of quantum dot-polymer nanocomposites
Xingfan Chen, Bin Li, Xueming Li, and Libin Tang
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210637 (2022)
Photoelectric Measurement
Structure design and stiffness analysis of spaceborne two-dimensional turntable
Tao Qin, Junli Guo, Meili Zhang, Peixian Han, Jin Wang, and Bo Qi
Spaceborne two-dimensional turntable is an important part of the laser communication pointing structure and one of the key components affecting the performance of the satellite-based equipment, which requires reasonable structural design and correct stiffness analysis, and the correctness of the design analysis is veri
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210364 (2022)
Misalignments calculation method for optical systems based on the ellipticity distribution of stellar image
Wei Wu, Zirong Luo, Huizhe Yang, Yujun Cao, and Jianzhong Shang
Computer aided alignment (CAA) plays an important role in the assembly of optical systems. However, most proposed CAA methods are based on wavefront aberrations, which need the aid of an additional high precision wavefront sensor (WFS). Based on the ellipticity distribution of stellar image in different fields of view
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210391 (2022)
Research progress of absolute distance measurement methods based on tunable laser frequency sweeping interference
Luming Song, Fumin Zhang, Dong Sun, Hongyi Lin, Xiaohua Huang, Miao Yu, and Qian Zhang
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210406 (2022)
Design of large aperture fast steering mirror surface figure test system
Xin Liu, Zhongming Yang, Zhaojun Liu, and Jihong Wang
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210514 (2022)
Friction observation compensation technology based on angular position information of photoelectric platform
Yang Yu, Honggang Zhang, Junke Gao, and Jiangang Wang
In order to improve the image stability accuracy of the photoelectric servo stabilization platform, a compensation method of friction observation based on the running angle position information of the mechanism was proposed according to the principle of friction disturbance on the platform. Firstly, the precise control
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20210557 (2022)
Special Issue—Microcavity Optical Frequency Comb Technology
Fabrication of silicon nitride-based integrated microcavity optical frequency comb devices (Invited)
Zhendong Zhu, Pingwei Lin, Zhaoyang Sun, Benfeng Bai, and Xueshen Wang
Microcavity optical frequency comb (also called the microcavity comb), a subversive technology, is an integrated light source produced from a four-wave mixing process in a nonlinear optical microcavity. As a precision device with excellent properties of optical frequency, microcavity combs can be extensively applied in
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220214 (2022)
Coherently pumped microcavity soliton physics and dual-comb applications(Invited)
Zhaoyu Cai, Zihao Wang, Changxi Yang, and Chengying Bao
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220271 (2022)
Chip-scale Kerr optical frequency comb for wavelength-division multiplexing optical fiber communications (Invited)
Yanlan Xiao, Yanping Yang, Zhengyuxiao Yang, Jiahao Hu, Danni Jin, Yong Geng, and Heng Zhou
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220291 (2022)
Fabrication and optical frequency comb generation in high-quality factor silicon oxide microcavity (Invited)
You Gao, Tuo Liu, Siyu Wang, and Hairun Guo
Based on ultra-high quality factor(Q) and nonlinear optical microcavities, optical microcombs(microcavity optical frequency comb) have enabled a variety of important applications including high volume optical communications, optical data center, photonic neuromorphic computation and massive parallel LIDAR. Whispering g
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220294 (2022)
Optical frequency comb in silicon nitride microresonator(Invited)
Jin Li, Piyu Wang, Zhengyu Wang, Rui Niu, Shuai Wan, Guangcan Guo, and Chunhua Dong
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220302 (2022)
Octave-spanning soliton optical frequency comb based on AlN microring resonator (Invited)
Huilan Tu, Jia Liu, Haizhong Weng, Yudan Zhang, Jiangnan Dai, Qiaoyin Lu, F. Donegan John, and Weihua Guo
Self-reference Dissipative Kerr Solitons (DKSs) based on optical microring resonators have a wide range of applications, such as frequency synthesizers, coherent communication, astronomical spectrometer calibration, precision measurements, optical clocks, dual-comb spectroscopy, etc. The directly accessing octave-spann
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220311 (2022)
Integrated chalcogenide frequency combs (Invited)
Di Xia, Jiaxin Zhao, Jiayue Wu, Zifu Wang, Bin Zhang, and Zhaohui Li
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220312 (2022)
Research progress of optical frequency comb in visible light band based on whispering gallery microcavities (Invited)
Qijing Lu, Lingqin Liao, Fangjie Shu, Ming Li, Shusen Xie, and Changling Zou
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220335 (2022)
Progress in integrated electro-optic frequency combs (Invited)
Pengfei Liu, Linhao Ren, Hao Wen, Lei Shi, and Xinliang Zhang
Optical frequency comb (OFC) is the spectrum structure composed of a set of discrete and equally spaced frequency components, which has been widely used in many areas such as spectroscopy, precision measurement, optical communication and sensing as the natural scale for spectral analysis. According to its generation me
Infrared and Laser Engineering
  • Publication Date: May. 25, 2022
  • Vol. 51, Issue 5, 20220381 (2022)