Thematische Bibliographien / PANDA fiber / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „PANDA fiber“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 29. Juli 2025

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1

Khisamov, Damir V., Anna N. Smirnova, and Irina S. Azanova. "Influence of the bend radius for PANDA PM Specialty optical fibers reliability." Вестник Пермского университета. Физика, no. 4 (2021): 52–57. http://dx.doi.org/10.17072/1994-3598-2021-4-52-57.

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The research considers the possibility of applying the forced «aging» method used for single-mode cable optical fibers in accordance with IEC 60793-2-50 to confirm the reliability of the PANDA PM Specialty optical fiber under long-term bending. A comparison of the results of PANDA PM Specialty optical fiber with isotropic optical fibers, which differ in the diameters of the quartz cladding and polymer coating, is carried out. An analytical estimate of the lifetime is carried out.
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2

Wang, Lidong, Meisong Liao, Fei Yu, et al. "Thermal Sensitivity of Birefringence in Polarization-Maintaining Hollow-Core Photonic Bandgap Fibers." Photonics 10, no. 2 (2023): 103. http://dx.doi.org/10.3390/photonics10020103.

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Polarization-maintaining (PM) fiber is the core sensitive component of a fiber optic gyroscope (FOG); its birefringence temperature stability is crucial for maintaining accuracy. Here, we systematically investigated the structural thermal deformation and the resulting birefringence variation in typical PM hollow-core photonic bandgap fibers (HC-PBGFs) for FOG according to varying fiber structure parameters. To verify the application potential of PM HC-PBGFs in FOG, we compared the thermal sensitivity of birefringence (TSB) with that of the commonly used Panda PM fiber, which was tested to 5.07
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3

Tian, Huawei, Ying Zeng, Zejun Zhang, Ming Lu, and Wei Wei. "Grazing-Induced Habitat Degradation: Challenges to Giant Panda Survival Resulting from Declining Bamboo and Soil Quality." Animals 15, no. 2 (2025): 202. https://doi.org/10.3390/ani15020202.

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Grazing is the primary human-induced disturbance affecting giant panda (Ailuropoda melanoleuca) habitats and has a severe impact on the long-term sustainability of the giant panda population. To address the lack of quantitative studies on grazing’s impact on habitat quality, we selected China’s most heavily grazed giant panda nature reserve. Utilizing the Maxent model and stoichiometric analysis, we investigated habitat quality degradation caused by grazing and quantified changes in bamboo nutritional quality and soil physicochemical properties. The results indicate that grazing has significan
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4

Tan Jun Wei, Lip Zhan Hong, Sulaiman Wadi Harun, and Cheng Xiau San. "PANDA Fiber Sagnac Interferometer for Temperature Sensor Application." Journal of Advanced Research in Applied Sciences and Engineering Technology 32, no. 3 (2023): 316–23. http://dx.doi.org/10.37934/araset.32.3.316323.

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Fiber Sagnac loop mirror has great potential for use in various application such as multi-wavelength laser source, strain and temperature sensors. This paper demonstrates an optical fiber temperature sensor based on two lengths of PANDA polarization maintaining fibers (PMFs) in a fiber Sagnac interferometer. The temperature sensing is based on the change of spectral spacing of the generated optical comb with the temperature difference between two PMFs. The performance of the system was characterized numerically and experimentally by measuring the spectral spacing when raising the temperature o
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5

Hokkanen, A., A. Salmi, V. Vashistha, et al. "A Panda fiber temperature sensor up to 900°C." Journal of Instrumentation 17, no. 07 (2022): P07031. http://dx.doi.org/10.1088/1748-0221/17/07/p07031.

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Abstract The use of Panda-type polarization-maintaining (PM) fiber for the localized sensing of high temperatures was analyzed with simulations and experiments up to 900°C. Accuracy and repeatability of the results started to decline above 800°C. Fused silica optical fiber melts at 1700°C, which sets an ultimate limit for measurable temperatures. In practice, optical fiber birefringence restricts the maximum temperature to 1060°C where PM fiber loses its ability to maintain polarization. Three sensor fibers (4, 5 and 10 cm long) were spliced at 45° angles to input/output fibers and calibrated
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6

Lesnikova, Yulia I., Aleksandr N. Trufanov, and Anna A. Kamenskikh. "Analysis of the Polymer Two-Layer Protective Coating Impact on Panda-Type Optical Fiber under Bending." Polymers 14, no. 18 (2022): 3840. http://dx.doi.org/10.3390/polym14183840.

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The article discusses the effects of thermal-force on the Panda-type optical fiber. The studies used a wide temperature range. The research used two thermal cycles with exposures to temperatures of 23, 60 and −60 °C. The field of residual stresses in the fiber formed during the drawing process was determined and applied. Panda was considered taking into account a two-layer viscoelastic polymer coating under conditions of tension winding on an aluminum coil in the framework of a contact problem. The paper investigated three variants of coil radius to analyze the effect of bending on fiber behav
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7

Li, Zixiang, Xuefeng Liu, Juan Zhao, et al. "Prospective Study on the Excretion of Mucous Stools and its Association with Age, Gender, and Feces Output in Captive Giant Pandas." Animals 9, no. 5 (2019): 264. http://dx.doi.org/10.3390/ani9050264.

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The giant panda (Ailuropoda melanoleuca) has evolved a large number of mucous glands in the intestinal lining to adapt to the digestion of high-fiber foods. However, in captive pandas, excessive mucus might form a mass and then be eliminated, which is often accompanied by discomfort and decreased activity. This event is called ‘mucous excretion’. The causes of mucus excretions in captive pandas, however, remain unknown. The aims of this study were to document the occurrence of mucus excretion and to investigate its possible associations with pandas’ age, gender, and feces output. Eighteen gian
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8

Nagaoka, S. "Compact latching type PANDA fiber switch." IEEE Photonics Technology Letters 10, no. 2 (1998): 233–34. http://dx.doi.org/10.1109/68.655368.

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9

Azanova, I. S., Yu O. Sharonova, A. D. Shevtsova, et al. "Radiation-resistant optic components of a fiber-optic gyroscope." ВЕСТНИК ПЕРМСКОГО УНИВЕРСИТЕТА. ФИЗИКА, no. 1 (2023): 5–20. http://dx.doi.org/10.17072/1994-3598-2023-1-05-20.

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The paper presents the results of an experimental study of specialized fiber-optic components of a fiber-optic gyroscope (FOG) developed and manufactured by PJSC PNPPK. The study aimed to test their resistance to continuous and pulse ionizing radiation (IR). When exposed to continuous IR, the FOG performance is determined by radiation-induced optical attenuation (RIA) of both the Panda-type polarization maintaining optical fiber (OF) of the gyroscope fiber circuit and the active OF, which is part of the superluminescent fiber radiation source (SFS), as well as by the average wave-length stabil
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10

Kamenskikh, Anna A., Lyaysan Sakhabutdinova, Yulija A. Strazhec, and Anastasia P. Bogdanova. "Assessment of the Influence of Protective Polymer Coating on Panda Fiber Performance Based on the Results of Multivariant Numerical Simulation." Polymers 15, no. 23 (2023): 4610. http://dx.doi.org/10.3390/polym15234610.

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This article considers the deformation behavior of Panda optical fiber using different models of material behavior for the tasks of predicting residual stresses after drawing when cooling from 2000 °C to room temperature (23 °C) and indenting the fiber into an aluminum half-space at different parameters. These studies were conducted for single- and double-layer protective coatings (PCs), at different values of external load and thickness of single-layer PC. This paper determined the fields of residual stresses in the fiber formed during the drawing process. They are taken into account in model
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11

Li Zhizhong, 李智忠, 杨华勇 Yang Huayong, 程玉胜 Cheng Yusheng, and 胡永明 Hu Yongming. "Pressure Sensing Characteristics of Panda Fiber Gratings." Acta Optica Sinica 29, no. 1 (2009): 157–62. http://dx.doi.org/10.3788/aos20092901.0157.

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12

Andreev, A., V. Ermakov, A. Subbotin, et al. "MATHEMATICAL MODELING OF PANDA TYPE FIBER WAVEGUIDES." Applied Photonics 4, no. 3 (2017): 208–11. http://dx.doi.org/10.15593/2411-4367/2017.03.03.

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13

Yang, Yi, Qi Mo, Songnian Fu, Bo Liu, Ming Tang, and Deming Liu. "Panda type elliptical core few-mode fiber." APL Photonics 4, no. 2 (2019): 022901. http://dx.doi.org/10.1063/1.5038119.

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14

Kurbatov, A. M., and R. A. Kurbatov. "Fiber polarizer based on W-lightguide Panda." Technical Physics Letters 37, no. 7 (2011): 626–29. http://dx.doi.org/10.1134/s106378501107011x.

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15

He, Nie, Zhuoyan Li, Gongshen Zhang, et al. "Temperature Stability of a Hybrid Polarization-Maintaining Photonic Crystal Fiber Resonator and Its Application in a Resonant Fiber Optic Gyro." Sensors 18, no. 8 (2018): 2506. http://dx.doi.org/10.3390/s18082506.

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A fiber ring resonator (FRR) constructed using a Panda polarization-maintaining fiber does not effectively solve the problem of temperature-related polarization fluctuation, which considerably limits the detection accuracy of the resonant fiber optic gyro. The polarization-maintaining photonic crystal fiber (PM-PCF) can improve the thermal stability of the FRR. In this study, a structure that can simultaneously detect the polarization fluctuation of two FRRs is designed. We analyzed and verified the polarization phase shift errors of these two types of fibers, which are caused by the thermally
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16

Kurbatov, A. M., and R. A. Kurbatov. "New optical W-fiber Panda for fiber optic gyroscope sensitive coil." Technical Physics Letters 36, no. 9 (2010): 789–91. http://dx.doi.org/10.1134/s106378501009004x.

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17

Tang, Haiyu, Jun Zhu, Hao Yin, Rui Wang, Hui Wang, and Benli Yu. "Optical Fiber Refractometer Based on Etched-Stress Applying Parts PANDA Fiber." IEEE Photonics Technology Letters 26, no. 13 (2014): 1356–59. http://dx.doi.org/10.1109/lpt.2014.2324021.

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18

Kvavle, Joshua M., Stephen M. Schultz, and Richard H. Selfridge. "Low loss elliptical core D-fiber to PANDA fiber fusion splicing." Optics Express 16, no. 18 (2008): 13552. http://dx.doi.org/10.1364/oe.16.013552.

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19

Lesnikova, Yu I., A. A. Kamenskikh, and M. M. Pashchenko. "MATHEMATICAL SIMULATION OF CONTACT INTERACTION OF A PANDA TYPE OPTICAL FIBER WITH ALUMINUM HALF-SPACE WITH DIFFERENT CHARACTER OF ELEMENTS conjugation." Applied Mathematics and Control Sciences, no. 3 (December 15, 2022): 45–66. http://dx.doi.org/10.15593/2499-9873/2022.03.03.

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Mathematical modeling of the deformation behavior of a Panda-type optical fiber with protective and hardening coatings was performed as part of the work. The contact indentation of a fiber into in aluminum half-space is simulated. The different pattern of the elements conjugations of the contact unite is considered: co-strain, contact gluing, frictional contact and their combination. The problem implementation is aimed at analyzing the pattern influence of the system elements conjugation on the deformation and contact parameters of the Panda-type fiber with two-layer protective-strengthening p
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20

Song, Weijun, Hongyao Chen, Jianping Wang, et al. "Panda type elliptical ring core few-mode fiber." Optical Fiber Technology 60 (December 2020): 102361. http://dx.doi.org/10.1016/j.yofte.2020.102361.

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21

Jing Zhang, Xueguang Qiao, Tuan Guo, et al. "Highly Sensitive Temperature Sensor Using PANDA Fiber Sagnac Interferometer." Journal of Lightwave Technology 29, no. 24 (2011): 3640–44. http://dx.doi.org/10.1109/jlt.2011.2174195.

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22

Kurbatov, Alexander M., and Roman A. Kurbatov. "Polarization and modal filters based on W-fibers Panda for fiber-optic gyroscopes and high-power fiber lasers." Optical Engineering 52, no. 3 (2013): 035006. http://dx.doi.org/10.1117/1.oe.52.3.035006.

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23

Shimizu, Makoto, and Masaharu Horiguchi. "Linearly Polarized Operation of PANDA-Type Nd-Doped Fiber Lasers." Japanese Journal of Applied Physics 28, Part 2, No. 4 (1989): L664—L666. http://dx.doi.org/10.1143/jjap.28.l664.

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24

Cai, Meiyu, Hailiang Chen, Ruyue Shi, et al. "Cryogenic temperature sensor based on fiber optic Sagnac interferometer with a panda polarization-maintaining fiber." Optics & Laser Technology 180 (January 2025): 111477. http://dx.doi.org/10.1016/j.optlastec.2024.111477.

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25

LIU Zhen-hua, 刘振华, 冯迪 FENG Di, 黄怀波 HUANG Huai-bo, 杨德伟 YANG De-wei, and 宋凝芳 SONG Ning-fang. "Automatic Aligning Method of Panda Polarization Maintaining Fiber with High Accuracy." ACTA PHOTONICA SINICA 44, no. 2 (2015): 206004. http://dx.doi.org/10.3788/gzxb20154402.0206004.

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26

Zhang, Jing, Yunkang Chen, Zhichao Wu, Shijie Feng, Perry Shum, and Tianye Huang. "Panda type separated-circles-formed elliptical ring core few-mode fiber." Optical Fiber Technology 73 (October 2022): 103067. http://dx.doi.org/10.1016/j.yofte.2022.103067.

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27

Du, Zhiyong, Chuncan Wang, Peixin Li, Li Pei, Jingjing Zheng, and Tigang Ning. "Design of ring-sector-assisted PANDA ring-core few mode fiber." Optoelectronics Letters 18, no. 6 (2022): 366–71. http://dx.doi.org/10.1007/s11801-022-1161-3.

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28

Li, Haoyu, Xuyou Li, Jie Wang, Martin Rochette, and Hanrui Yang. "High extinction ratio elliptical core Panda-type polarization-maintaining fiber coil." Optics Letters 46, no. 17 (2021): 4276. http://dx.doi.org/10.1364/ol.437629.

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29

Wang, Xin, Jing Wang, Shan-Shan Wang, and Yi-Peng Liao. "Fiber-Optic Salinity Sensing With a Panda-Microfiber-Based Multimode Interferometer." Journal of Lightwave Technology 35, no. 23 (2017): 5086–91. http://dx.doi.org/10.1109/jlt.2017.2764743.

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30

Yan, Jingtao, Lijun Miao, Tengchao Huang, Shuangliang Che, and Xiaowu Shu. "Development of method for polarization alignment of PANDA polarization maintaining fiber." Optical Fiber Technology 53 (December 2019): 101999. http://dx.doi.org/10.1016/j.yofte.2019.101999.

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31

Yan, Haozhe, Shangyuan Li, Zhengyang Xie, Xiaoping Zheng, Hanyi Zhang, and Bingkun Zhou. "Design of PANDA ring-core fiber with 10 polarization-maintaining modes." Photonics Research 5, no. 1 (2016): 1. http://dx.doi.org/10.1364/prj.5.000001.

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32

Witkowicz, Robert, Wioletta Biel, Joanna Chłopicka, et al. "Biostimulants and Microorganisms Boost the Nutritional Composition of Buckwheat (Fagopyrum esculentum Moench) Sprouts." Agronomy 9, no. 8 (2019): 469. http://dx.doi.org/10.3390/agronomy9080469.

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This study investigated the influence of biological control agents and plant growth promoters on the chemical composition of the cultivars Panda and Kora buckwheat sprouts. Before sowing, seeds were soaked in solutions containing Bacillus subtilis bacteria, Pythium oligandrum oospores, Ecklonia maxima algae extract, and/or nitrophenols. The sprouts of the Panda displayed higher levels of protein, fat, and dietary fiber fractions than the Kora. Measurable effects of biological control agents (BCAs) and plant growth promoters (PGPs) on the chemical composition of sprouts were also confirmed. Soa
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33

Kebede, Addis T., Suresh K. Raina, and Jacques M. Kabaru. "Structure, Composition, and Properties of Silk from the African Wild Silkmoth, Anaphe panda (Boisduval) (Lepidoptera: Thaumetopoeidae)." International Journal of Insect Science 6 (January 2014): IJIS.S13338. http://dx.doi.org/10.4137/ijis.s13338.

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Silk cocoon nests, as well as the fiber structure, compositions, and properties of the African wild silkmoth, Anaphe panda, collected from Kakamega tropical rainforest (western Kenya) were studied using scanning electron microscopy, high-pressureliquid chromatography, tensile tests, and thermogravmetric analysis, and they were compared with the industrial standard, Bombyx mori. Cocoon nests are complex structures made up of inner, middle, and outer layers. The inner hard parchment was found to protect a mass of (20–200) individual soft flossy cocoons that enclose the pupae. The outer surface o
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34

Ding, ZhiChao, ZhongWei Tan, YunShu Gao, Yue Wu, and Bin Yin. "Strain and temperature discrimination using a fiber Bragg grating concatenated with PANDA polarization-maintaining fiber in a fiber loop mirror." Optik 221 (November 2020): 165352. http://dx.doi.org/10.1016/j.ijleo.2020.165352.

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35

Yan Feng-Ping, Wei Yan, Fu Yong-Jun, et al. "Study on the performance of stress area mismatched Panda polarization-maintaining fiber." Acta Physica Sinica 58, no. 1 (2009): 321. http://dx.doi.org/10.7498/aps.58.321.

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36

Zhu, Yong-Qin, Yong-Sen Yu, Yang Zhao, et al. "Highly Sensitive Directional Torsion Sensor Based on a Helical Panda Fiber Taper." IEEE Photonics Technology Letters 31, no. 13 (2019): 1009–12. http://dx.doi.org/10.1109/lpt.2019.2915918.

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37

Yang, Yi, Jitao Gao, Songnian Fu, et al. "PANDA Type Four-Core Fiber With the Efficient Use of Stress Rods." IEEE Photonics Journal 11, no. 5 (2019): 1–9. http://dx.doi.org/10.1109/jphot.2019.2936585.

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38

Ovchinnikov, K. A., V. V. Krishtop, D. G. Gilev, V. A. Maksimenko, and A. V. Perminov. "Measuring the birefringence value of a PANDA fiber using a Sagnac interferometer." Izvestiâ vysših učebnyh zavedenij. Priborostroenie 66, no. 10 (2023): 845–51. http://dx.doi.org/10.17586/0021-3454-2023-66-10-845-851.

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39

Liu, Peng, Fengping Yan, Chuncan Wang, Fan Zhang, and Chu Liu. "A switchable dual-wavelength all-fiber laser based on Panda-type photosensitive polarization-maintaining erbium-doped fiber." Microwave and Optical Technology Letters 52, no. 2 (2009): 386–89. http://dx.doi.org/10.1002/mop.24928.

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40

Du, Zhiyong, Chuncan Wang, Peixin Li, Li Pei, Jingjing Zheng, and Tigang Ning. "Fully degeneracy-lifted PANDA few-mode fiber based on the segmented ring-core." Optik 255 (April 2022): 168710. http://dx.doi.org/10.1016/j.ijleo.2022.168710.

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41

Fu, Songnian, Yanlin Wang, Jingxian Cui, et al. "Panda Type Few-Mode Fiber Capable of Both Mode Profile and Polarization Maintenance." Journal of Lightwave Technology 36, no. 24 (2018): 5780–85. http://dx.doi.org/10.1109/jlt.2018.2877626.

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42

Chen, Shi, and Jian Wang. "Design of PANDA-type elliptical-core multimode fiber supporting 24 fully lifted eigenmodes." Optics Letters 43, no. 15 (2018): 3718. http://dx.doi.org/10.1364/ol.43.003718.

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43

Gao, Ling, Chao Jiang, Chuanju Hu, et al. "Ultra-sensitive strain sensor based on Sagnac interferometer with different length panda fiber." Infrared Physics & Technology 141 (September 2024): 105445. http://dx.doi.org/10.1016/j.infrared.2024.105445.

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44

Ranjan, Rajeev, Flavio Esposito, Stefania Campopiano, and Agostino Iadicicco. "Sensing Characteristics of Arc-Induced Long Period Gratings in Polarization-Maintaining Panda Fiber." IEEE Sensors Journal 17, no. 21 (2017): 6953–59. http://dx.doi.org/10.1109/jsen.2017.2755370.

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45

He, Xuelan, Chao Ma, Xianbin Wang, Zhenqiang Wang, Fengchun Jiang, and Libo Yuan. "Metallic structure functional sensor based on embedded PANDA fiber by ultrasonic additive manufacturing." Applied Optics 59, no. 16 (2020): 4880. http://dx.doi.org/10.1364/ao.392317.

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46

Yingwu Zhou, Kan Gao, Rui Huang, Ronghui Qu, and Zujie Fang. "Temperature and stress tuning characteristics of long-period gratings imprinted in Panda fiber." IEEE Photonics Technology Letters 15, no. 12 (2003): 1728–30. http://dx.doi.org/10.1109/lpt.2003.819736.

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47

Wu, Zhifang, Peili Wu, Maryna Kudinova, et al. "Bragg Grating Assisted Sagnac Interferometer in SiO2-Al2O3-La2O3 Polarization-Maintaining Fiber for Strain–Temperature Discrimination." Sensors 20, no. 17 (2020): 4772. http://dx.doi.org/10.3390/s20174772.

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Polarization-maintaining fibers (PMFs) have always received great attention in fiber optic communication systems and components which are sensitive to polarization. Moreover, they are widely applied for high-accuracy detection and sensing devices, such as fiber gyroscope, electric/magnetic sensors, multi-parameter sensors, and so on. Here, we demonstrated the combination of a fiber Bragg grating (FBG) and Sagnac interference in the same section of a new type of PANDA-structure PMF for the simultaneous measurement of axial strain and temperature. This specialty PMF features two stress-applied p
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48

Yang Huayong, 杨华勇, 姜暖 Jiang Nuan, 张学亮 Zhang Xueliang, and 胡永明 Hu Yongming. "Study on Fabrication and Optical Add-Drop Multiplexing Experiments with Panda Fiber Grating Coupler." Chinese Journal of Lasers 37, no. 6 (2010): 1430–33. http://dx.doi.org/10.3788/cjl20103706.1430.

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49

Xu, Ben, C. L. Zhao, Fan Yang, et al. "Sagnac interferometer hydrogen sensor based on panda fiber with Pt-loaded WO_3/SiO_2 coating." Optics Letters 41, no. 7 (2016): 1594. http://dx.doi.org/10.1364/ol.41.001594.

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50

Mousavi, Seyedeh Laleh, and Mohammad Sabaeian. "Thermal Stress-Induced Depolarization Loss in Conventional and Panda-Shaped Photonic Crystal Fiber Lasers." Brazilian Journal of Physics 46, no. 5 (2016): 481–88. http://dx.doi.org/10.1007/s13538-016-0435-2.

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