Contents
2024
Volume: 53 Issue 3
27 Article(s)

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[in Chinese]
Method for measuring laser damage threshold of optical thin film elements based on quantitative damage evaluation
Lei Xin, Zhongming Yang, Jun Meng, and Zhaojun Liu
ObjectiveOptical thin film components play a critical role in high-power lasers, and their ability to withstand laser-induced damage is crucial for the overall performance of the laser systems. Accurate measurement of the laser-induced damage threshold (LIDT) of thin film components is of great significance for improvi
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230614 (2024)
[in Chinese]
Plasmon-enhanced ZnO-based nanowire heterojunction array photodetector
Hui Wu, Jialong Peng, Jinbao Jiang, Hansheng Li, Wei Xu, Chucai Guo, Jianfa Zhang, and Zhihong Zhu
ObjectiveLow-dimensional ZnO-based photodetectors have high responsivity and high photon absorption ability. However, the limited absorption range and reduced carrier lifetime of ZnO constrain its potential applications in optoelectronics. This study presents a novel plasmon-enhanced photodetector with zinc oxide (ZnO)
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240006 (2024)
[in Chinese]
Design and test of a blue-green dual-wavelength oceanic lidar system
Lufeng Ji, Bingyi Liu, Peizhi Zhu, Jintao Liu, Kailin Zhang, Songhua Wu, and Junwu Tang
ObjectiveThe optical characteristic parameters of marine water are one of the key points of marine research. Most of the optical characteristics vary with depth, and oceanic lidar is one of the effective technical means to detect water profile information. Based on the requirement of water optical profile detection, a
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230597 (2024)
[in Chinese]
Research progress and development trends of antimonide-based superlattice infrared photodetectors
Jie Zhang, Min Huang, Xiaoling Dang, Yixin Liu, Yingchao Chen, and Jianxin Chen
SignificanceInfrared focal plane arrays (FPAs) are indispensable core components in many fields such as aerospace remote sensing, deep space exploration, national defense and security, resource exploration, and industrial control. In recent years, the antimonide-based superlattice is drawing the research interests from
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230153 (2024)
Mid-infrared up-conversion imaging based on chirp polarization crystals
Zhaoqizhi Han, Zheng Ge, Xiaohua Wang, Zhiyuan Zhou, and Baosen Shi
ObjectiveThe mid-infrared band (2.5-25 μm) has important applications in the field of spectroscopy and imaging. Spectral migration technique up-converts mid-infrared signal light to visible/near-infrared light through a non-linear frequency process, which is then detected using high-performance detectors based on wide-
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230585 (2024)
Infrared thermal imaging detection and defect classification of honeycomb sandwich structure defects
Qingju Tang, Zhuoyan Gu, Hongru Bu, and Guipeng Xu
ObjectiveIn order to realize the accurate classification of GFRP/NOMEX honeycomb sandwich structure defect types, an infrared thermal imaging detection system was built to collect heat maps of defects and healthy areas, and a GFRP/NOMEX honeycomb sandwich structure defect classification model was constructed by using c
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230631 (2024)
Research on packaging technology for 40 K dual-band long-wave detectors
Xiaokun Wang, Junlin Chen, Shaobo Luo, Zhijiang Zeng, and Xue Li
Objective Cryogenic optical technology is a crucial support technology for weak target and multispectral infrared detection. In order to achieve precise temperature control and prevent contamination in the cryogenic optical system, it is common to integrate the cryogenic optics with the detectors inside a cryocooler.Me
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230654 (2024)
[in Chinese]
Threshold and incubation effect of femtosecond laser ablation of YAG crystals
Tao Shang, Guoliang Deng, Jun Wang, Jie Wu, Rui Cai, Rubo Chen, and Yunlong Xu
Objective The incubation effect plays an important role in the process of ultrafast laser ablation and processing. This article investigates the threshold and incubation effect of femtosecond laser ablation of YAG crystals with a wavelength of 1 030 nm. Under the shot of a single pulse, the YAG surface undergoes "
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230583 (2024)
Tunable high-energy mode-locking fiber laser based on PbS quantum dots
Guangwei Chen, Yue Zhao, Guoqing Hu, Ying Qin, Kailin Jia, Li Chen, Huiyu Li, Jingwen He, and Zhehai Zhou
ObjectiveWith excellent photoelectric properties, low-dimensional nanomaterials show great promise for applications, such as optical switch, optical communication and industrial materials processing, particularly in combination with ultrashort pulse fiber laser. Passively mode-locking fiber laser is one of the importan
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230632 (2024)
Design and application of all-day portable outdoor infrared detection aerosol lidar system
Peng Zhuang, Chenbo Xie, Baorong Kang, Jianming Liu, and Xiaowei Xia
ObjectiveAir pollution control has higher requirements for environmental monitoring equipment. As an active remote sensing instrument, lidar is currently a powerful tool for monitoring the three-dimensional distribution characteristics of atmospheric aerosols in the troposphere. Lidar can compensate for the insufficien
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230636 (2024)
Temperature field and stress field of LD end-pumped Yb:YAG crystal
Xinyang Li, Long Li, Jiaxin Ren, Zhenglong He, Pu Shi, Jianghao Ning, and Chunling Zhang
ObjectiveLaser is a device that can emit high energy radiation, and its excellent characteristics make it to be widely used and paid attention to by researchers in various fields. Its most important part is the laser crystal. During the operation of the laser, the crystal will generate a lot of heat inside the crystal
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230683 (2024)
Thermal effect of laser diode end pump square Tm:YAG composite crystal
Jiaxin Ren, Long Li, Xinyang Li, Hengxin Yang, Yuxiao Ji, and Chunling Zhang
ObjectiveThe mid-infrared 2 μm solid-state laser has unique characteristics in terms of output wavelength: it is in the atmospheric window, the absorption band of water and the human eye safety zone. Based on these special properties, it can be widely used in laser imaging radar, doppler coherent wind radar, differenti
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230717 (2024)
Frequency stabilization method of optical phase-locked loop He-Ne laser based on acousto-optic modulator
Yusen Liu, Jianbo Wang, Cong Yin, Shaokun Han, Wenwen Bi, Qiuye Yu, and Jinpeng Zou
ObjectiveWith the rapid development of the aerospace and microelectronics industries, the demand for ultra precision measurement is also increasing. He-Ne lasers are widely used in mechanical and ultra precision measurement fields due to their excellent coherence and other characteristics. Among them, the thermally sta
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240003 (2024)
[in Chinese]
Image highlight removal method based on parallel multi-axis self-attention
Pengyue Li, Xinying Xu, Yandong Tang, Zhaoxia Zhang, Xiaoxia Han, and Haifeng Yue
ObjectiveHighlights are manifested as high bright spots on the surface of glossy materials under the action of light. The highlights of the image can obscure background information with different degrees. The ambiguity of the image highlight layer model and the large dynamic range of highlights enable highlight removal
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230538 (2024)
Fast calculation of radiative heat transfer coefficient between diffuse and non-diffuse surfaces
Fubing Li, Qi You, Junmin Leng, and Linhao Yang
ObjectiveRadiative heat transfer is one of the three basic modes of heat transfer and has an important impact on the study of the temperature distribution and infrared radiation characteristics of the outer surface of a space target. For solving the radiation heat transfer between incomplete gray-diffuse surfaces syste
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230611 (2024)
Optimization method of PSO-PID control for interferometric closed-loop fiber optic gyroscope
Shangbo Liu, Zesheng Dan, Baowang Lian, Jintao Xu, and Hui Cao
Objective PSO-PID control optimization algorithm based on the interferometric closed-loop fiber optic gyroscope has been widely used in military and civil fields, such as aerospace, defense equipment, navigation survey, vehicle inertial navigation system and other industrial systems. These applications are developing i
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230626 (2024)
[in Chinese]
Atmospheric optical turbulence prediction method for satellite-ground laser communication (invited)
Yingchi Guo, Lang Li, Chen Li, Chunqing Gao, and Shiyao Fu
SignificanceThe prediction of atmospheric turbulence has great significance both in science and engineering, which provides key parameters and references for domains like astronomical observation, site selection, satellite-ground laser communication, and remote sensing. Especially in satellite-ground laser communicatio
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230729 (2024)
Athermalization design for annular aperture folding imaging system based on light-digital combination (cover paper·invited)
Dechao Ma, Mingxu Piao, Yafeng Xie, Yuanming Zhao, Qun Niu, Chengran Zhang, Zhe Wang, and Bo Zhang
ObjectiveWith the advancement and development of science and technology, the demand for miniaturized optical systems is becoming increasingly significant. The total length of the optical system can be reduced by folding the optical path in the annular aperture folding imaging system. However, the annular aperture foldi
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240013 (2024)
Research progress on polarimetric imaging technology in complex environments based on deep learning (invited)
Haofeng Hu, Yizhao Huang, Zhen Zhu, Qianwen Ma, Jingsheng Zhai, and Xiaobo Li
SignificancePolarization information, as one of the fundamental physical characteristics of light waves, can provide information about the intrinsic properties of the target. Polarimetric imaging technology digitizes the polarization information of the measured target field through digital processing. This approach eff
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240057 (2024)
Integrated Optics
Integrated spectral detection based on lensless speckle image coding
Tianbiao Zhou, Siyuan Huang, Long Wen, and Qin Chen
ObjectiveIn recent years, on-chip spectroscopy has garnered considerable interests across multiple applications, primarily owing to its exceptional integration capabilities. Benefiting from mature image sensors with millions of pixels, wavelength-dependent image coding technology has emerged as a promising integrated s
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240010 (2024)
Newsletter
Application of 632 nm FMCW lidar for simultaneous velocity and distance measurement in humid environment
Xinyu Zhang, Lili Jiang, Ran Song, Zhijun Zhang, Bingbing Li, Juan Su, and Qi Wu
ObjectiveIn high sea conditions and complex environments, for achieving safe landing of unmanned aerial vehicles (UAV) on unmanned surface vehicles (USV), it is necessary to accurately measure the distance and speed simultaneously between them and provide real-time feedback to the control system. However, commonly used
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240093 (2024)
Correction of pressure effect in calibrating nitrate concentration of seawater
Naixin Zhang, Xingyue Zhu, Baoyi Shan, Jian Xu, and Qi Wu
ObjectiveOptical nitrate sensors have advantages for in-situ exploration and the potential for long-term observation in deep-sea environment. However, measurement of optical nitrate is influenced by substrates in seawater, especially bromide ions (Br-), within the relevant spectral range, causing a spectral shift in th
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240095 (2024)
Optical Communication and Sensing
Design and transmission characteristics of high-order orbital angular momentum transmission fiber (inside back cover paper)
Lijuan Zhao, Yujing Wu, and Zhiniu Xu
ObjectiveOrbital angular momentum based multiplexing is a special form of space division multiplexing, different OAM modes are orthogonal to each other, based on which different modes can carry different information, and multiple OAM beams with different topological loads can be used as carriers for information transmi
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20240007 (2024)
Optical Design
A fast calculation method for deflection angles of dual fast steering mirrors for beam pointing control
Zefan Huang, Yanwei Li, Hongbo Xie, Rui Yang, Jiarong Gu, and Xinwang Xie
ObjectiveInternal temperature drift, mechanical structure deformation, thermal effects of optical components, and other factors lead to misalignment of the emitted laser beam, causing drift of the spot on the target surface (Fig.1) and affecting laser applications. In order to suppress this phenomenon, it is necessary
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230582 (2024)
Design and optimization of a single-core axis in a ground-based photoelectric imaging system
Hanwang Zhu, Xiangyao Xue, Mingzhen Shao, Wenbao Zhang, Shang Li, Xiushuo Wang, Guangyi Wang, and Xinyu Yang
ObjectiveThe study aims at addressing a critical need in ground-based optoelectronic imaging, which is enhancing the surface form accuracy of primary mirrors under extreme conditions such as large pitch angles and significant temperature variations. This aim is vital as it directly impacts on the quality of optical ima
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230629 (2024)
Optical Fabrication
Uncertainty error technology for magnetorheological finishing of optical elements
Bo Gao, Bin Fan, Jia Wang, Xiang Wu, and Qiang Xin
ObjectiveAs a new optical machining technology, magnetorheological finishing has many advantages, such as high machining certainty, stable convergence efficiency, controllable edge effect, small subsurface damage layer, so it has a wide range of applications in the field of high-precision optical machining. According t
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230595 (2024)
Space Optics
Advances in ultraviolet polarization detection for space astronomy
Ruiyan Shan, Lianqing Dong, Kang Li, Muyao Zhang, Guoxian Zheng, Zhuo Zhang, Lixin Yang, and Junjie Shao
Significance In the realm of scientific advancement and national development, emerging space-based astronomical detection technologies play a pivotal role. Their high-precision observations afford unique opportunities, deepening our comprehension of the universe and propelling the forefronts of astrophysics and cosmolo
Infrared and Laser Engineering
  • Publication Date: Mar. 25, 2024
  • Vol. 53, Issue 3, 20230547 (2024)