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19. Online Monitoring of On-Load Tap Changer Based on Fiber Bragg Grating and Motor Current

Author

Qi, Bo, Chen, Tian, Gao, Wenzhuo, Wang, Jiawei, Yang, Xiao, Li, Chengrong, Ye, zhuangzhuang, Sun, Wensi, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Yang, Qingxin, editor, and Li, Jian, editor

Published
2025
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20. Research Progress in Fiber Bragg Grating-Based Ocean Temperature and Depth Sensors.

Author

Zhao, Xinyu, Wei, Chenxi, Zeng, Lina, Sun, Li, Li, Zaijin, Chen, Hao, Liu, Guojun, Qiao, Zhongliang, Qu, Yi, Xu, Dongxin, Li, Lianhe, and Li, Lin

Subjects
*FIBER Bragg gratings, *PRESSURE sensors, *TEMPERATURE sensors, *HIGH temperatures, *ELECTROMAGNETIC interference
Abstract

Fiber Bragg gratings (FBGs) are widely used in stress and temperature sensing due to their small size, light weight, high resistance to high temperatures, corrosion, electromagnetic interference, and low cost. In recent years, various structural enhancements and sensitization to FBGs have been explored to improve the performance of ocean temperature and depth sensors, thereby enhancing the accuracy and detection range of ocean temperature and depth data. This paper reviews advancements in temperature, pressure, and dual-parameter enhancement techniques for FBG-based sensors. Additionally, the advantages and disadvantages of each method are compared and analyzed, providing new directions for the application of FBG sensors in marine exploration. [ABSTRACT FROM AUTHOR]

Published
2025
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21. An Energy Modulation Interrogation Technique for Monitoring the Adhesive Joint Integrity Using the Full Spectral Response of Fiber Bragg Grating Sensors.

Author

Shin, Chow-Shing, Lin, Tzu-Chieh, and Huang, Shun-Hsuan

Subjects
*FIBER Bragg gratings, *ADHESIVE joints, *LIGHT filters, *SPECTRAL sensitivity, *ELECTROMAGNETIC interference
Abstract

Adhesive joining has the severe limitation that damages/defects developed in the bondline are difficult to assess. Conventional non-destructive examination (NDE) techniques are adequate to reveal disbonding defects in fabrication and delamination near the end of service life but are not helpful in detecting and monitoring in-service degradation of the joint. Several techniques suitable for long-term joint integrity monitoring are proposed. Fiber Bragg grating (FBG) sensors embedded in the joint are one of the promising candidates. It has the advantages of being close to the damage and immune to environmental attack and electromagnetic interference. Damage and disbonding inside an adhesive joint will give rise to a non-uniform strain field that may bring about peak splitting and chirping of the FBG spectrum. It is shown that the evolution of the full spectral responses can closely reveal the development of damages inside the adhesive joints during tensile and fatigue failures. However, recording and comparing the successive full spectra in the course of damage is tedious and can be subjective. An energy modulation interrogation technique is proposed using a pair of tunable optical filters. Changes in the full FBG spectral responses are modulated by the filters and converted into a conveniently measurable voltage output by photodiodes. Monitoring damage development can then be easily automated, and the technique is well-suited for practical applications. Filter spectrum width of 5 nm and initial overlap with the FBG spectrum to give 40% of the maximum output voltage is found to be optimal for measurement. The technique is tested on embedded FBGs from different adhesive lap-joint specimens and successfully reflected the severity of changes in the full spectral shapes during the course of tensile failure. Moreover, the trends in these PD outputs corroborate with the V value previously proposed to describe the qualitative change in FBG spectral shape. [ABSTRACT FROM AUTHOR]

Published
2025
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22. Digitalized Optical Sensor Network for Intelligent Facility Monitoring.

Author

Renner, Esther, Haerteis, Lisa-Sophie, Kaiser, Joachim, Villnow, Michael, Richter, Markus, Thiel, Torsten, Pohlkötter, Andreas, and Schmauss, Bernhard

Subjects
OPTICAL fiber detectors, FIBER optical sensors, SENSOR networks, ENERGY infrastructure, INTELLIGENT sensors, OPTICAL time-domain reflectometry, FIBER Bragg gratings
Abstract

Due to their inherent advantages, optical fiber sensors (OFSs) can substantially contribute to the monitoring and performance enhancement of energy infrastructure. However, optical fiber sensor systems often are standalone solutions and do not connect to the main energy infrastructure control systems. In this paper, we propose a solution for the digitalization of an optical fiber sensor system realized by the Open Platform Communications Unified Architecture (OPC UA) protocol and the Internet of Things (IoT) platform Insights Hub. The optical fiber sensor system is based on bidirectional incoherent optical frequency domain reflectometry (biOFDR) and is used for the interrogation of fiber Bragg grating (FBG) arrays. To allow for an automated sensor identification and thus measurement procedure, an optical sensor identification marker based on a unique combination of fiber Bragg gratings (FBGs) is established. To demonstrate the abilities of the digitalized sensor network, a field test was performed in a power plant test facility of Siemens Energy. Temperature measurements of a packaged FBG sensor fiber were performed with a portable demonstrator, illustrating the system's robustness and the comprehensive data processing stream from sensor value formation to the cloud. The realized network services promote sensor data quality, fusion, and modeling, expanding opportunities using digital twin technology. [ABSTRACT FROM AUTHOR]

Published
2025
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23. 复合材料固化残余应变应变片原位检测方法.

Author

孟波, 孙小巍, 刘凯, 刘振东, and 王鹏

Subjects
STRAIN gages, FIBER Bragg gratings, RESIDUAL stresses, FIBROUS composites, CURING
Abstract

Copyright of Acta Materiae Compositae Sinica is the property of Acta Materiea Compositae Sinica Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2025
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24. Smart Concrete Using Optical Sensors Based on Bragg Gratings Embedded in a Cementitious Mixture: Cure Monitoring and Beam Test.

Author

Souza, Edson, Pinheiro, Pâmela, Coutinho, Felipe, Dias, João, Pilar, Ronaldo, Pontes, Maria José, and Leal-Junior, Arnaldo

Subjects
*CONCRETE curing, *CONCRETE construction, *FIBER Bragg gratings, *BRAGG gratings, *STRAIN sensors
Abstract

Smart concrete is a structural element that can combine both sensing and structural capabilities. In addition, smart concrete can monitor the curing of concrete, positively impacting design and construction approaches. In concrete, if the curing process is not well developed, the structural element may develop cracks in this early stage due to shrinkage, decreasing structural mechanical strength. In this paper, a system of measurement using fiber Bragg grating (FBG) sensors for monitoring the curing of concrete was developed to evaluate autogenous shrinkage strain, temperature, and relative humidity (RH) in a single system. Furthermore, K-type thermocouples were used as reference temperature sensors. The results presented maximum autogenous shrinkage strains of 213.64 μ ε , 125.44 μ ε , and 173.33 μ ε for FBG4, FBG5, and FBG6, respectively. Regarding humidity, the measured maximum relative humidity was 98.20 %RH, which was reached before 10 h. In this case, the recorded maximum temperature was 63.65 °C and 61.85 °C by FBG2 and the thermocouple, respectively. Subsequently, the concrete specimen with the FBG strain sensor embedded underwent a bend test simulating beam behavior. The measurement system can transform a simple structure like a beam into a smart concrete structure, in which the FBG sensors' signal was maintained by the entire applied load cycles and compared with FBG strain sensors superficially positioned. In this test, the maximum strain measurements were 85.65 μ ε , 123.71 μ ε , and 56.38 μ ε on FBG7, FBG8, and FBG3, respectively, with FBG3 also monitoring autogenous shrinkage strain. Therefore, the results confirm that the proposed system of measurement can monitor the cited parameters throughout the entire process of curing concrete. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Damage and Failure Monitoring of Aerospace Insulation Layers Based on Embedded Fiber Bragg Grating Sensors.

Author

Yan, Guang, Wan, Boli, Huang, Heng, and Li, Wuyi

Subjects
*CARBON fiber-reinforced plastics, *FIBER Bragg gratings, *STRUCTURAL health monitoring, *FIBROUS composites, *FINITE element method, *THERMAL insulation
Abstract

Carbon fiber-reinforced polymer (CFRP) composites are widely used in aviation thermal insulation layers due to their high strength-to-weight ratio and excellent high-temperature performance. However, challenges remain regarding their structural integrity and durability under extreme conditions. This study first employed finite element simulation to model the damage evolution of CFRP laminated plates under axial tensile loads and their thermal decomposition behavior in high-temperature environments, providing a theoretical reference. Subsequently, experimental research was conducted on CFRP laminated plates embedded with fiber Bragg grating (FBG) sensors. In the tensile tests, FBG sensors accurately monitored the entire process from elastic deformation to damage propagation and eventual failure. In the high-temperature tests, despite a 75% reduction in tensile strength, FBG sensors effectively monitored damage evolution. Conclusively, the results demonstrate that FBG sensors possess reliable monitoring capabilities under complex conditions, making them a promising solution for the long-term structural health monitoring of aviation thermal insulation materials and paving the way for future developments in this area. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Suppressing Side‐Scattering on Laser‐Written Bragg Gratings for Back‐Reflection Engineering in Fibers.

Author

Hu, Jiacheng, Wang, Yuying, Lau, Kuen Yao, Han, Xuhu, Firstov, Sergei, Zhong, Lijing, Wang, Yiping, and Qiu, Jianrong

Subjects
*BRAGG gratings, *OPTICAL fibers, *BACKSCATTERING, *REFRACTIVE index, *MIRRORS, *ACTIVE medium
Abstract

Laser direct writing (LDW) is versatile in structuring fibers with micro‐sized functional elements such as fiber Bragg grating (FBG) and backscattering centers by finely manipulating back and side scattering from laser‐induced refractive index modified (RIM) points. However, the side‐scattering is a lesser‐explored property in laser‐structured fibers. In this work, a concise physical model is established to understand the side‐scattering as a combined effect of microstructure and geometry of RIM points. Based on a single‐pulsed LDW method, the parametric decoupling between scattering loss (α) and coupling strength (κ) coefficients of FBGs is reported, whose cross‐section is customized to have a flattened ellipse with thoroughly positive RIM, enabling controllable reflectivity from −21.33 dB to −0.0018 dB while maintaining narrow bandwidth and low loss. Exemplarily, a designed FBG realizes ultra‐low loss of 0.008 dB with a resonance attenuation of 10.81 dB, exhibiting a record‐breaking κ/α of 2083. Using this FBG as the high‐reflective mirror of a home‐made bismuth‐doped fiber laser, narrow‐band lasing with a high optical signal‐to‐noise ratio of ≈43 dB is achieved, demonstrating flexibilities of the proposed approach in customizing both back‐ and side‐scattering in fibers and opening up wide opportunities for combining multifunctional components into optical fibers and realizing all‐fiber networks. [ABSTRACT FROM AUTHOR]

Published
2024
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27. 复合绝缘子表面异常发热点识别方法.

Author

刘 垚

Abstract

Copyright of Study on Optical Communications / Guangtongxin Yanjiu is the property of Study on Optical Communications Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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28. Simultaneous Vibration and Temperature Real-Time Monitoring Using Single Fiber Bragg Grating and Free Space Optics.

Author

Yao, Cheng-Kai, Kumar, Pradeep, Liu, Bing-Xian, Dehnaw, Amare Mulatie, and Peng, Peng-Chun

Subjects
ARTIFICIAL neural networks, FREE-space optical technology, FIBER Bragg gratings, FIBER optic cables, BRAGG gratings
Abstract

Simultaneous monitoring of temperature and vibration of electromechanical systems, public buildings, and volcanic terrain is an important indicator of preventing accidents. This work showcases the simultaneous temperature and vibration measurement using a single-fiber Bragg grating (FBG) sensor. The concurrent interrogation of vibration and temperature by the FBG sensing system can be integrated with free space optics (FSO), which saves on the costs associated with fiber optic cables and overcomes terrain barriers. Furthermore, the real-time measured vibration frequencies and different temperature levels can be recognized by a deep neural network (DNN) sequential model. In addition to the FSO support, the sensing system can be arranged in multiple sensing locations to form a wide range of measurements, offering a highly cost-effective solution. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Erbium-Doped Fibers Designed for Random Single-Frequency Lasers Operating in the Extended L-Band.

Author

Lipatov, Denis, Abramov, Alexey, Lobanov, Alexey, Burmistrov, Denis, Popov, Sergei, Ryakhovsky, Dmitry, Chamorovskiy, Yuriy, Bazakutsa, Alexey, Iskhakova, Liudmila, Egorova, Olga, and Rybaltovsky, Andrey

Subjects
SILICATE fibers, FIBER Bragg gratings, OPTICAL materials, BRAGG gratings, LASER cavity resonators
Abstract

The paper presents the results of developing Er-doped optical fibers for creating random single-frequency lasers in the wavelength range of 1570–1610 nm. The possibility of broadening the luminescence band of Er3+ ions in silicate glasses in the long-wavelength region of the spectrum by introducing a high concentration of P2O5, as well as by additional doping with Sb2O3, is investigated. It is found that both approaches do not improve the dynamics of luminescence decay in the L-band. In addition, Er2O3-GeO2-Al2O3-SiO2 and Er2O3-GeO2-Al2O3-P2O5-SiO2 glasses were studied as the core material for L-band optical fibers. The developed fibers exhibited high photosensitivity and a high gain of 5 and 7.2 dB/m, respectively. In these fibers, homogeneous arrays of extended weakly reflecting Bragg gratings were recorded directly during the fiber drawing process. Samples of arrays 5 m long and with a narrow reflection maximum at ~1590 nm were used as the base for laser resonators. Narrow-band random laser generation in the wavelength region of 1590 nm was recorded for the first time. At a temperature of 295 K, the laser mode was strictly continuous wave and stable in terms of output power. The maximal power exceeded 16 mW with an efficiency of 16%. [ABSTRACT FROM AUTHOR]

Published
2024
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30. Angle-Tunable Method for Optimizing Rear Reflectance in Fabry–Perot Interferometers and Its Application in Fiber-Optic Ultrasound Sensing.

Author

Chu, Yufei, Alshammari, Mohammed, Wang, Xiaoli, and Han, Ming

Subjects
STRUCTURAL health monitoring, FIBER Bragg gratings, SIGNAL-to-noise ratio, REFLECTANCE, ULTRASONIC imaging
Abstract

With the introduction of advanced Fiber Bragg Grating (FBG) technology, Fabry–Pérot (FP) interferometers have become widely used in fiber-optic ultrasound detection. In these applications, the slope of the reflectance is a critical factor influencing detection results. Due to the intensity limitations of the laser source in fiber-optic ultrasound detection, the reflectance of the FBG is generally increased to enhance the signal-to-noise ratio (SNR). However, increasing reflectance can cause the reflectance curve to deviate from a sinusoidal shape, which in turn affects the slope of the reflectance and introduces greater errors. This paper first investigates the relationship between the transmission curve of the FP interferometer and reflectance, with a focus on the errors introduced by simplified assumptions. Further research shows that in sensors with asymmetric reflectance slopes, their transmittance curves deviate significantly from sinusoidal signals. This discrepancy highlights the importance of achieving symmetrical slopes to ensure consistent and accurate detection. To address this issue, this paper proposes an innovative method to adjust the rear-end reflectance of the FP interferometer by combining stress modulation, UV adhesive, and a high-reflectivity metal disk. Additionally, by adjusting the rear-end reflectance to ensure that the transmittance curve approximates a sinusoidal signal, the symmetry of the slope is maintained. Finally, through practical ultrasound testing, by adjusting the incident wavelength to the positions of slope extrema (or zero) at equal intervals, the expected ultrasound signals at extrema (or zero) can be detected. This method converts the problem of approximating a sinusoidal signal into a problem of the slope adjustment of the transmittance curve, making it easier and more direct to determine its impact on detection results. The proposed method not only improves the performance of fiber-optic ultrasound sensors but also reduces costs, paving the way for broader applications in medical diagnostics and structural health monitoring. [ABSTRACT FROM AUTHOR]

Published
2024
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31. FBG-Based UV-Curing Kinetics Analysis by Exothermic Behavior

Author

Wen Yan, Zhenhua Bi, Ying Song, and Xinpu Zhang

Subjects
UV-curing kinetics, fiber Bragg grating, exothermic behavior, optical fiber sensing, Applied optics. Photonics, TA1501-1820
Abstract

Abstract Since photo-induced polymerization of the ultra-violet (UV)-curing adhesive from a fluid state to a solid state is an exothermic process, the UV curing exothermic behavior can be regarded as a potential evaluation methodology to analyze UV-curing kinetics. Herein, a fiber Bragg grating (FBG)-based UV curing exothermic behavior monitoring is proposed to evaluate the UV-curing dynamic process and analyze a series of thermal and mechanical properties changes during curing. The exothermic behavior of the UV curing adhesive during curing and the feasibility of FBG-based curing kinetic analysis scheme are verified experimentally, full cycle cure monitoring of the UV curing adhesive can be realized by this FBG-based curing kinetic analysis scheme, and the UV-curing kinetics of four different types of the UV curing adhesive are corresponding to different exothermic behaviors. Compared with curing process evaluation based on refractive index variation, this FBG-based exothermic behavior monitoring has the ability to extract more details of the curing process, and some curing stages with negligible refractive index changes also can be distinguished. By using this proposed scheme, the UV-curing dynamic process and multiple characteristic parameters, such as curing time, time constant, transient temperature rise, and residual stress, can be evaluated, which may contribute to evaluating and analyzing UV-curing kinetics more comprehensively.

Published
2025
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32. Method for Identifying Abnormal Hot Spots on the Surface of Composite Insulators

Author

LIU Yao

Subjects
fiber Bragg grating, centralized temperature measurement, composite insulator, abnormal hot spot, maximum interclass variance, pixel statistics, Applied optics. Photonics, TA1501-1820
Abstract

【Objective】To avoid the operational risk of high-voltage transmission lines caused by thermal faults of composite insulators, a method for identifying abnormal hot spots on the surface of composite insulators is studied.【Methods】Three types of abnormal surface heating forms of composite insulators, current heating type, voltage heating type, and comprehensive heating type, are analyzed. Based on the analysis results, the fiber Bragg grating centralized temperature measurement technology is used to deploy the fiber Bragg grating sensor near the composite insulator. The fiber optic dispersion centralized temperature measurement unit is used to calculate the corresponding wavelength offset and temperature change value. After being analyzed by the digital signal processing unit, the thermal image of the composite insulator is generated. Using the maximum inter class variance method to segment the thermal image of composite insulators, the average gray level of the thermal image of composite insulators is calculated, and the optimal threshold to partition the pixels in the thermal image of composite insulators is obtained. Based on the thermal image segmentation results of composite insulators, pixel statistical methods are used to calculate the horizontal row pixel points of the composite insulator segmentation image and divide the structural area of the composite insulator. According to the application specification of thermal image diagnosis for live equipment and the principle of fiber grating centralized temperature measurement, the thermal image of composite insulator collected by the fiber grating sensor is displayed in pseudo color to show the surface temperature distribution of composite insulator. The abnormal hot spots on the surface of composite insulators are identified through the temperature relationship among various structural regions of the target image.【Results】The experimental results show that this method can accurately measure the temperature of any point on the surface of composite insulators, and the maximum Root-mean-square deviation is only 1.39%. It is shown that the proposed method can effectively divide the structural regions of composite insulator segmentation images, with clear boundaries between each structure and no overlap phenomenon.【Conclusion】The recognition performance of abnormal hot spots on the surface of composite insulators in different areas of high-voltage transmission lines is relatively ideal, and the division effect of composite insulator structure areas is relatively good.

Published
2024
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33. Railway Slope Monitoring Based on Dual-Parameter FBG Sensor.

Author

Xu, Hongbin, Wang, Weiwei, Li, Feng, Du, Yanliang, Tu, Hongliang, and Guo, Chuanrui

Subjects
FIBER Bragg gratings, RAILROAD safety measures, RAILROAD design & construction, SLOPES (Soil mechanics), FINITE element method
Abstract

A large number of slopes appear along the line during railway construction, which will pose a threat to railway safety operation. Slope monitoring plays an important role in ensuring the safety of railway operation. Aiming at the difficulties of sensor multiplexing, low accuracy, and large disturbance by trains, this paper proposes a railway slope monitoring method based on integrated fusion detection of inclination and vibration. Instability and failure characteristics of the K3 slope in Shuohuang Railway and dynamic characteristics under the excitation of the train load are analyzed by the finite element method (FEM) analysis. Based on the above analysis, a slope monitoring system is established utilizing the self-developed dual-parameter fiber Bragg grating (FBG) sensor. The monitoring data of the past four years show that the slope is in a relatively stable state at present. The monitoring data are consistent with the results of the FEM. The feasibility of the damage identification method based on inclination and vibration characteristics is verified, which provides a new method for railway slope monitoring. [ABSTRACT FROM AUTHOR]

Published
2025
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34. In-situ monitoring of changes in temperature and microstrain during the chemical corrosion of stone cultural relics

Author

Huihua Wu, Quanhua Xie, Yuanyuan He, Xuefeng He, Yuan Zhou, Yang Liu, Yufei Liu, Bo Wan, and Nianbing Zhong

Subjects
Stone cultural relics, Chemical corrosion, Fiber Bragg grating, Temperature, Microstrain, In situ sensing, Fine Arts, Analytical chemistry, QD71-142
Abstract

Abstract Temperature changes during the chemical corrosion of stone cultural relics affect the condensation and evaporation of water and chemical reactions between soluble substances and corrosive solutions. This ultimately leads to changes in the internal structure and composition of the artifacts, which in turn lead to changes in the microstrain of cultural relics. To obtain in-situ real-time information on changes in the temperature and microstrain of stone cultural relics during chemical corrosion damage, a fiber Bragg grating (FBG) detection system was developed. The detection principle for the temperature and microstrain of sandstone was provided. Thermal field emission scanning electron microscopy, X-ray diffraction, and mercury intrusion porosimetry were used to characterize the surface morphology, composition, and pore structure of the sandstone samples, respectively. The temperature and microstrain changes of the sandstone samples under deionized water with different acidic/alkaline and salt solutions and at different temperatures were examined online in situ using the FBG measurement system. The results indicate that the dissolution of sandstone in the acidic solution (H2SO4 and NaHSO4) resulted in an exothermic chemical reaction as well as the dissolution of sandstone in the neutral salt solution (Na2SO4) and alkaline solution (NaOH and Na2CO3) led to material conversion and exothermic chemical reaction; the deionization reaction belongs to the dissolution reaction. The NaHSO4 solution caused the most serious corrosive disease on the sandstone surface. When the temperature of the NaHSO4 solution was 60 °C, the temperature and microstrain of the sandstone reached 63.9 °C and 253.6 με, respectively. The results of this study can support the research of revealing the corrosion mechanism of sandstone in different environments.

Published
2024
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35. A New Type of Dynamic Vibration Fiber Sensor.

Author

Chang, I-Nan, Chiu, Chih-Chuan, and Liu, Wen-Fung

Subjects
*FIBER Bragg gratings, *VIBRATION (Mechanics), *FREQUENCIES of oscillating systems, *EARTHQUAKES, *DETECTORS
Abstract

A new-type vibration sensor based on a fiber Bragg grating combined with a special structure-packaged design is proposed for monitoring the mechanical vibration signals. Three different sensing structures, including the film squeeze type, new film squeeze type, and elastic tape squeeze type are proposed for measuring the vibration signals with the frequency range from tens to thousands of Hz. In the comparison to experimental results, the new film squeeze structure has a nice sensing performance in the range from 100 to 1000 Hz with a sensitivity of 0.302 mV/g. For the elastic tape squeeze structure, the elastic tape is designed to encapsulate the optical fiber with a good frequency response from 1100 to 3100 Hz. In addition, by using the new film squeeze structure to measure the steady-state and non-steady-state vibration signals, the spectral components of sensing signals are analyzed by using the wavelet transformation for confirming the testing signals. These vibration fiber sensors can be applied in the measurement of high-end manufacture-facility vibration or earthquake vibrations etc. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Wavelength Locking and Calibration of Fiber-Optic Ultrasonic Sensors Using Single-Sideband-Modulated Laser.

Author

Alshammari, Mohammed and Han, Ming

Subjects
FIBER Bragg gratings, OPTICAL measurements, OPTICAL sensors, OPTICS, DETECTORS
Abstract

Implementation of edge-filter detection for interrogating optical interferometric ultrasonic sensors is often hindered by the lack of cost-effective laser sources with agile wavelength tunability and good noise performance. The detected signal can also be affected by optical power variations and locking-point drift, negatively affecting the sensor accuracy. Here, we report the use of laser single-sideband generation with a dual-parallel Mach–Zehnder interferometer (DP-MZI) for laser wavelength tuning and locking in edge-filter detection of fiber-optic ultrasonic sensors. We also demonstrate real-time in situ calibration of the sensor response to ultrasound-induced wavelength shift tuning. The DP-MZI is employed to generate a known wavelength modulation of the laser, whose response is used to gauge the sensor response to the ultrasound-induced wavelength shifts in real time and in situ. Experiments were performed on a fiber-optic ultrasonic sensor based on a high-finesse Fabry–Perot interferometer formed by two fiber Bragg gratings. The results demonstrated the effectiveness of the laser locking against laser wavelength drift and temperature variations and the effectiveness of the calibration method against optical power variations and locking-point drift. These techniques can enhance the operational robustness and increase the measurement accuracy of optical ultrasonic sensors. [ABSTRACT FROM AUTHOR]

Published
2024
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37. High bandwidth profile based on fiber bragg grating dispersion compensation systems for high bit rate optical communications with long distance links.

Author

Devi, Perumal Kalpana, Vidhya, Thankaraj Helan, Selvaraju, Madhubalan, Balasubramanian, Bhuvaneswari, Sundar, Suvitha, Anvar, Jayanthi, Ramkumar, Govindaraj, Ahammad, Shaik Hasane, Rashed, Ahmed Nabih Zaki, Ferdous, A. H. M. Iftekharul, and Hossain, Md. Amzad

Abstract

This paper presents the high bandwidth profile based on fiber Bragg grating dispersion compensation systems for high bit rate optical communications with long distance links. We have studied the chirp, apodization functions and temperature variations effects on the operation performance efficiency of fiber Bragg grating sensors. The optimum values of fiber Bragg grating (FBG) devices such as power, and reflected signal power can be measured in the presence of Gauss, Tanh parameters variations at different ambient temperatures. FBG operation performance efficiency can be enhanced with the employment of user defined chirp function with user defined apodization function at room temperature in the presence of suitable value of Tanh parameter. It is observed that user defined apodization function has presented the highest FBG power and the lowest reflected signal power in compared with other apodization functions at different types of chirp functions. It is found that the dramatic negative effects of increasing ambient temperature on FGB power, reflected signal power, signal quality factor and bit error rate (BER) measurements. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Quantifying efficacy of the fiber bragg grating sensors in medical applications: a survey.

Author

Prathap, P. B. and Saara, K.

Abstract

Fiber Bragg grating (FBG) sensors play a decisive role in clinical decisions, where their ability to show chemical inertness, small in size, and high sensitivity makes them superior to the electric sensors for both in situ and ex vivo examinations. In recent years, different FBG sensors have been proposed for medical purposes; yet, ensuring high-resolution, accurate, and highly high-sensitive sensing under complex operating environments remains a challenge. In this paper, the different FBG-based sensors designed for biomechanics sensing, musculoskeletal sensing, non-invasive or minimally invasive surgery, tissue manipulation sensing, tissue thermal ablation sensor, tool shaping sensors, physiological sensing (respiratory sensor, heart rate sensor, blood pressure sensor, temperature sensor), and biosensors are discussed. The existing sensor designs with their respective functionalization, strengths, and limitations are discussed. The depth assessment revealed that the chirped etched FBG, phased grating FBG, TFBG, super-structured FBGs, etc., with optimal grating encapsulation or coating can be vital toward medical sensing and allied clinical decision systems. The study confirms that the use of grating encapsulation or coating can improve sensitivity; however, addressing strain and temperature compensation remains a challenge. Moreover, the use of a peak-tracking method by exploiting refractive index changes can enable accurate biosensing or allied medical sensing tasks. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Demodulating Optical Wireless Communication of FBG Sensing with Turbulence-Caused Noise by Stacked Denoising Autoencoders and the Deep Belief Network.

Author

Bogale, Shegaw Demessie, Yao, Cheng-Kai, Manie, Yibeltal Chanie, Dehnaw, Amare Mulatie, Tefera, Minyechil Alehegn, Li, Wei-Long, Zhong, Zi-Gui, and Peng, Peng-Chun

Subjects
FIBER Bragg gratings, FREE-space optical technology, SIGNAL denoising, LIGHT scattering, OPTICAL communications
Abstract

Free-space optics communication (FSO) can be used as a transmission medium for fiber optic sensing signals to make fiber optic sensing easier to implement; however, interference with the sensing signals caused by the optical turbulence and scattering of airborne particles in the FSO path is a potential problem. This work aims to deep denoise sensed signals from fiber Bragg grating (FBG) sensors based on FSO link transmission using advanced denoising deep learning techniques, such as stacked denoising autoencoders (SDAE). Furthermore, it will demodulate the sensed wavelength of FBGs by applying the deep belief network (DBN) technique. This is the first time the real FBG sensing experiment has utilized the actual noise interference caused by the environmental turbulence from an FSO link rather than adding noise through numerical processing. Consequently, the spectrum of the FBG sensors is clearly modulated by the noise and the issue with peak power variation. This complicates the determination of the center wavelengths of multiple stacked FBG spectra, requiring the use of machine learning techniques to predict these wavelengths. The results indicate that SDAE is efficient in denoising from the FBG spectrum, and DBN is effective in demodulating the central wavelength of the overlapped FBG spectrum. Thus, it is beneficial to implement an FSO link-based FBG sensing system in adverse weather conditions or atmospheric turbulence. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Gain-Switched Ytterbium Fiber Laser Operating at a Wavelength of 1127 nm.

Author

Filatova, S. A., Kamynin, V. A., Makeeva, A. R., Rybaltovsky, A. A., Fale, A. E., Fedoseev, A. I., and Tsvetkov, V. B.

Abstract

A compact gain-switched all-fiber ytterbium laser operating at a wavelength of 1127 nm with the ability to control pulsed radiation parameters has been investigated. Gain switching was carried out by modulating the current of a semiconductor pump diode. With pumping energy ranging from 197.6 to 263.5 μJ, there was one generation pulse per each pump pulse with a duration of 0.43 to 1.1 μs, energy of 5.3 to 8.8 μJ, and a repetition rate of 100 Hz. Increasing the pumping energy above 265 μJ led to a change in the shape of generated pulses and to their energy rising up to 70 μJ. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Design and performance evaluation of next generation access network based on advanced optical carrier generator.

Author

Rashid Khammas, Namariq and Khalf, Bashar Ahmed

Subjects
FIBER Bragg gratings, PASSIVE optical networks, FAULT location (Engineering), OPTICAL spectra, OPTICAL fiber networks
Abstract

Passive optical network (PON) was designed in this paper. The design aim was to locate faulty line of service professionally without extra effort. In the literature, there were various PON-design methodologies. However, a design with fewer components and less faulty line tracking was a challenge. The suggested approach tried to overcome the leakage in the state-of-the-art, such that, the PON network would be able to serve forty-eight optical network units (ONUs). At the same time, the design has to have the capability to distinguish the dropped line of service straightforwardly. The design in this thesis mainly depends on the fiber Bragg gratings (FBGs) to create six-groups, in each group, there are eight-branches. Each branch serves as an end-user/customer point. The capacity of fault location was achieved for ONUs distanced/located as far as 20 Km from the central office (CO). There was only one optical spectrum analyser (OSA) inside the CO. This OSA employed to monitor the whole network groups, i.e., forty-eight branches/ONU were screened inside the CO to predict the fault location. The system is built using the OptiSystem software package version 14. [ABSTRACT FROM AUTHOR]

Published
2024
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42. Fiber Bragg Grating Pulse and Systolic Blood Pressure Measurement System Based on Mach–Zehnder Interferometer.

Author

Li, Yuanjun, Wang, Bo, Liu, Shanren, Gao, Mengmeng, Li, Qianhua, Chen, Chao, Guo, Qi, and Yu, Yongsen

Subjects
*FIBER Bragg gratings, *SYSTOLIC blood pressure, *PULSE wave analysis, *BLOOD pressure measurement, *GATE array circuits, *RADIAL artery
Abstract

A fiber Bragg grating (FBG) pulse and systolic blood pressure (SBP) measurement system based on the edge-filtering method is proposed. The edge filter is the Mach–Zehnder interferometer (MZI) fabricated by two fiber couplers with a linear slope of 52.45 dBm/nm. The developed system consists of a broadband light source, an edge filter, fiber Bragg gratings (FBGs), a coarse wavelength-division multiplexer (CWDM), and signal-processing circuits based on a field-programmable gate array (FPGA). It can simultaneously measure pulse pulsations of the radial artery in the wrist at three positions: Cun, Guan and Chi. The SBP can be calculated based on the pulse transit time (PTT) principle. The measurement results compared to a standard blood pressure monitor showed the mean absolute error (MAE) and standard deviation (STD) of the SBP were 0.93 ± 3.13 mmHg. The system meets the requirements of the Association for the Advancement of Medical Instrumentation (AAMI) equipment standards. The proposed system can achieve continuous real-time measurement of pulse and SBP and has the advantages of fast detection speed, stable performance, and no compression sensation for subjects. The system has important application value in the fields of human health monitoring and medical device development. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Simulation and Measurement of Strain Waveform under Vibration Using Fiber Bragg Gratings.

Author

Smailov, Nurzhigit, Koshkinbayev, Sauletbek, Aidana, Bazarbay, Kuttybayeva, Ainur, Tashtay, Yerlan, Aziskhan, Amir, Arseniev, Dmitry, Kiesewetter, Dmitry, Krivosheev, Sergey, Magazinov, Sergey, Malyugin, Victor, and Sun, Changsen

Subjects
*FIBER Bragg gratings, *VIBRATION (Mechanics), *DIGITAL signal processing, *STRAIN sensors, *SIGNAL processing
Abstract

The work is devoted to the consideration of methods for determining the strain of objects using fiber Bragg gratings under a high-frequency vibration or pulsed mechanical action, which is difficult to perform using widespread methods and devices. The methods are based on numerical processing of the time dependence of the radiation power reflected from the fiber Bragg grating at various wavelengths, which makes it possible to measure strain parameters in a wide range of magnitude and frequencies. The efficiency of the proposed methods is demonstrated by numerical simulation. It is shown that it is possible to restore the strain dependence on time in the range ± 1000   μ ϵ or more from simultaneously measured power dependencies reflected by the fiber Bragg grating using common fiber-optic components. The case of sequential registration of reflected radiation power at different wavelengths to determine the probability density of the distribution of the strain values is also considered. The results of signal processing obtained both by numerical simulation and experimentally for the case of a linear vibration are presented. The technical problems of using the proposed methods are discussed. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Multi-Directional Strain Measurement in Fiber-Reinforced Plastic Based on Birefringence of Embedded Fiber Bragg Grating.

Author

Zhou, Chunhua, Chen, Changhao, Ye, Zilong, Wu, Qi, and Xiong, Ke

Subjects
*FIBER-reinforced plastics, *BRAGG gratings, *MECHANICAL loads, *OPTICAL fibers, *CARBON fibers, *FIBER Bragg gratings
Abstract

Embedded fiber Bragg gratings are increasingly applied for in-situ strain measurement in fiber-reinforced plastics, integral to high-end aerospace equipment. Existing research primarily focuses on in-plane strain measurement, limited by the fact that fiber Bragg gratings are mainly sensitive to axial strain. However, out-of-plane strain measurement is equally important for comprehending structural deformation. The birefringence of fiber Bragg gratings shows promise for addressing this problem; yet, the strain transfer relationship between composites and optical fibers, along with the decoupling method for multi-directional strains, remains inadequately explored. This study introduces an innovative method for multi-directional strain measurement in fiber-reinforced plastics using the birefringence of a single-fiber Bragg grating. The strain transfer relationship between composites and embedded optical fibers was derived based on Kollar's analytical model, leading to the development of a multi-directional strain decoupling methodology. This method was experimentally validated on carbon fiber/polyetherimide laminates under thermo-mechanical loading. Its reliability was confirmed by comparing experimental results and finite element simulations. These findings significantly broaden the application scenarios of fiber Bragg gratings, advancing the in-situ measurement technology crucial for the next generation of high-end aerospace equipment. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Fiber laser-based two-wavelength sensors for detecting temperature and strain on concrete structures.

Author

Smailov, Nurzhigit, Zhadiger, Torekhan, Tashtay, Yerlan, Abdykadyrov, Askar, and Amir, Aziskhan

Subjects
FIBER lasers, FIBER Bragg gratings, DATA acquisition systems, INFORMATION technology security, COOLING towers, CONSTRUCTION industry, STEAM power plants
Abstract

In this article, we discuss the scientific research we conducted to ensure information security on concrete structures using the fiber Bragg grating method. As a result, guided by the experiences of other researchers and their results in our studies, the main hazards were identified, and the influence of temperature and deformation sensors in concrete was studied. The work determines the dependence of temperature on the optical cable and its effect on concrete deformation. It also studies the change in the internal structure of the optical fiber when exposed to concrete, and in comparison, with non-concrete optical fiber. In the experimental chapter, conducted on laboratory bench, we consider and study the signal transmission structure of an optical sensor that experiences deformation upon impact with concrete and such fibers. Graphic data was obtained using the OptiSystem program. During the process of determining the optical power of the sensors, we discovered that the higher the vibration during signal transmission, the higher the power of the optical data acquisition system unit. The results presented in this paper show the promise of fiber optics in other environments, as well as new discoveries in the construction industry and the successful use of electrical laser sensors to maintain temperature and stress in a variety of concrete structures, including cooling towers in nuclear and thermal power plants. [ABSTRACT FROM AUTHOR]

Published
2024
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46. 准确检测液位的光纤Bragg光栅弹性膜片传感器.

Author

杜 锋, 姚建南, 陶奕霏, 许 愿, 丁 超, and 刘 洋

Subjects
FIBER Bragg gratings, AIR ducts, CAPILLARY tubes, THICKNESS measurement, VIBRATION measurements, GASKETS
Abstract

Copyright of Piezoelectrics & Acoustooptics is the property of Piezoelectric & Acoustooptic and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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47. GA-BP-Based Low-Noise FBG Hydroacoustic Monitoring System with Reference Sensor.

Author

Zhou, Yubin, Zhao, Yuexia, Song, Chengbing, Wang, Jiancun, Xu, Weikun, and Li, Zhengguang

Subjects
*FIBER Bragg gratings, *SOUND pressure, *SIGNAL-to-noise ratio, *SIGNAL processing, *ARRAY processing
Abstract

To address the issue of harsh marine background noise impacting the monitoring signal of fiber-optic hydrophones, we propose a low-noise fiber Bragg grating (FBG) hydroacoustic monitoring system with a reference sensor based on genetic algorithm backpropagation (GA-BP). Through theoretical analysis, we deduce the noise suppression steps of the GA-BP algorithm based on the reference sensor and construct train and test sets based on the data from the reference sensor and monitoring sensor at different times, optimizing the GA-BP algorithm to find the best fitting results and thereby obtaining the low-noise monitoring signal. Experimental results from the anechoic tank show that the proposed method can suppress background noise interference on effective signals and that the suppression effect improves as the background noise increases. The sound pressure sensitivity ranges from −173.76 dB to −171.33 dB at frequencies of 8 kHz to 12 kHz, with a response flatness of less than 2.43 dB. The noise suppression effect is obvious under the condition of poor signal-to-noise ratio (SNR), which can reach more than 18.3 dB. The advantages of the proposed algorithm in array signal processing are further demonstrated by the directivity experiment, which proves that the algorithm has a great potential for engineering applications in harsh marine environment. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Research on optimization and self‐repair of fiber‐optic sensor network based on a novel elliptical topology structure.

Author

Hu, Xingliu, Si, Haifei, and Zhou, Zhihui

Subjects
*FIBER Bragg gratings, *GRAPH theory, *SENSOR networks, *STRUCTURAL optimization, *NETWORK performance
Abstract

We designed a novel elliptical topology fiber‐optic sensing network to improve the coverage and reliability of fiber‐optic sensing networks. A sensitive area model detection experiment of fiber Bragg‐grating sensors was conducted, and a fiber‐optic sensing network based on an elliptical topology model was established based on the optimal coverage. To further optimize the network performance, the graph theory's adjacency matrix, coupled with the shortest‐path algorithm, efficiently uncovers and establishes the demodulation pathway for failed sensors in the fiber‐optic sensing network at a higher rate, thereby improving the response speed of self‐repair. Floyd's algorithm demonstrated a significant improvement in repair time compared with the standard practice, specifically reducing the repair time by approximately 88.25%. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Study on the Optimized Perception of Structural Behavior in Shield Tunneling by Fiber Grating Layouts.

Author

Xing, Rongjun, Li, Yufu, He, Chuan, Zhu, Daiqiang, Li, Yujun, Feng, Kun, Xu, Pai, Liu, Yu, and Zhao, Zhongchao

Subjects
FIBER Bragg gratings, WATER pressure, TUNNEL lining, STRUCTURAL stability, MODELS & modelmaking
Abstract

Shield tunnels' structural stability is challenged due to the fact that they are often built under rivers, lakes, and oceans. It is crucial to execute the structural deformation perception of the shield tunnel. Fiber Bragg grating (FBG) sensing technology is sensitive to deformation information, making it one of the greatest options for shield tunnels to perceive structural deformation. In this study, a 1:20 scale model test was carried out to investigate the deformation perception of the shield tunnel structure under three different layouts of surface-mounted FBG sensors. The deformation law of the tunnel is discussed, under the condition of two-factor cross fusion and especially under the condition of constant water pressure and soil pressure change. The results indicate that, under the combined action of water and soil pressure, the uniform water pressure of 0.33 MPa has a stabilizing effect on the segment strain under the vertical load of 0.4 MPa. The traditional four-point layout and the 18° uniform layout are more effective in detecting changes in local tunnel curvature and strain, respectively, compared to the 36° uniform layout mode. It is advised that the traditional four-point layout be used to collect information for other sections' monitoring and that the 18° uniform layout is for harsh terrain conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Optically Delaying a Radio Frequency–Linear Frequency-Modulated (RF-LFM) Pulse Using Kerr Comb Carriers and Off-the-Shelf Concatenation of a Linearly Chirped Fiber Bragg Grating and a Chirped-and-Sampled Fiber Bragg Grating.

Author

Almaiman, Ahmed, Cao, Yinwen, Liao, Peicheng, Willner, Alan, and Tur, Moshe

Subjects
FIBER Bragg gratings, TRANSFER functions, BANDWIDTHS
Abstract

We demonstrate a low latency delay of a radio frequency (RF)–linear frequency-modulated (LFM) pulse by modulating it onto optical carriers from a Kerr comb and sending the signal through a concatenation of off-the-shelf linearly chirped fiber Bragg gratings (LC-FBGs) and chirped-and-sampled FBG (CS-FBG). We characterize the frequency response and latency of the LC-FBG and CS-FBG. Then, experimentally, the LFM pulse performance is characterized by measuring the peak sidelobe level (PSL) at the output of the tunable delay system. The experiment, performed with an LFM pulse of 1 GHz bandwidth at a 10 GHz center frequency, shows a PSL better than 34.4 dB, attesting to the high quality of the buffer RF transfer function. Thus, the proposed optical memory buffer architecture, utilizing compact devices based on a Kerr comb and FBGs, offers several benefits for delaying LFM pulses, including (i) a larger tunable delay range, (ii) low latency, (iii) wide bandwidth, and (iv) high PSL. [ABSTRACT FROM AUTHOR]

Published
2024
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