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Autor: Grafiati
Data publikacji: 22 czerwca 2024
Data aktualizacji: 7 lipca 2024

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1

Li, Guanwei. "Research on U-band Fiber Lasers". Highlights in Science, Engineering and Technology 97 (28.05.2024): 166–71. http://dx.doi.org/10.54097/vvxym768.

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The U-band fiber laser has attracted the attention of many researchers and industry due to its outstanding performance characteristics. U-band fiber laser is a type of laser that operates in the ultraviolet wavelength range, and its research background mainly stems from the demand for ultraviolet lasers in scientific research, medical treatment, material processing, and other fields. However, traditional ultraviolet lasers often use gas laser media, which have large volume, high power consumption, and high maintenance costs, limiting their promotion in practical applications. Therefore, researchers have begun to explore the use of fiber optic technology to achieve miniaturization, efficiency, and stability improvement of ultraviolet lasers. This article provides an overview of the working principle and application fields of U-band fiber lasers and proposes the future development direction of U-wave fiber lasers. Intended to provide useful references for further research on fiber lasers. Through continuous technological innovation and process improvement, this paper promote the further development of U-band fiber laser technology, expand its application areas, improve performance and stability, and promote its widespread application in industrial and scientific research fields.
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2

Peng, Saize. "Modeling and numerical simulation optimization of output spectrum of thulium-doped broadband fiber optic light source". Applied and Computational Engineering 11, nr 1 (25.09.2023): 59–64. http://dx.doi.org/10.54254/2755-2721/11/20230208.

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In this research, the performance of thulium-doped fiber lasers is analyzed and a mathematical model is established. Thulium-doped fiber amplifiers are the focus of this article. A large number of simulations have been carried out in the MATLAB simulation environment, and the main work and innovation points are as follows: firstly, the energy level structure characteristics of thulium were studied, and its spectral characteristics were analyzed. After consulting some information, 3H4 to 3H6 energy level has been selected in modeling. Secondly, use the rate equations and the power propagation equations to provide a theoretical analysis of the pumping mode of thulium-doped fiber lasers. And a mathematical model of a thulium-doped fiber laser was established. The parameters such as fiber length and doping concentration in the model are discussed. Finally, to find the appropriate parameters, the genetic optimization algorithm is used to optimize the fiber length and doping concentration, and then we can get the parameters corresponding to the maximum output power of the thulium-doped fiber amplifier.
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3

Leconte, Baptiste, Laurent Bigot, Philippe Roy, Raphael Jamier, Romain Dauliat, Marie-Alicia Malleville, Yves Quiquempois, Hicham El Hamzaoui i Olivier Vanvincq. "Lasers de forte puissance : vers l’avènement de fibres optiques à aire effective extrême". Photoniques, nr 99 (listopad 2019): 23–27. http://dx.doi.org/10.1051/photon/20199923.

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Les systèmes lasers fibrés sont au coeur de nombreuses recherches académiques et constituent un marché annuel mondial dépassant le milliard d’euros. L’augmentation de la puissance en sortie de ces dispositifs a été rendue possible grâce à une innovation permanente portant sur la géométrie de fibres, les matériaux qui les constituent et les méthodes de synthèse associées. Après un bref rappel historique, nous rappelons quelques éléments de contexte et présentons quelques avancées récentes en matière de fibres à très grandes aires effectives.
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4

Cayne, N., G. Jacobowitz, P. Lamparello, T. Maldonado, C. Rockman, M. Adelman i L. S. Kabnick. "Endovenous procedures in varicose veins". Phlebologie 37, nr 05 (2008): 229–36. http://dx.doi.org/10.1055/s-0037-1622235.

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SummaryOver the past ten years endoveous treatment options for varicose veins have evovled considerably, offering clinicians a multitude of options to meet the needs of their patients. The endothermal ablation procedures have moved to the forefront as the choice modality for treating truncal reflux. Both radiofrequency ablation and endovenous laser ablation are widely accepted and interchangeable, showing comparable efficacy and safety. Although numerous endovenous laser wavelengths exist, the data indicates that the differences do not affect the efficacy or postoperative recovery of the procedure. The endovenous laser innovation that has shown early evidence of improved patient outcome is the jacket-tip fiber. The versatility of sclerotherapy makes it a critical component in the endovenous treatment of varicosities. Although not approved by the Food and Drug Administration (USA), the use of a foamed sclerosing agent is the fastest growing segment of sclerotherapy and an important treatment modality in the future of varicose vein treatment. Cutaneous lasers and intense pulse light devices contribute a crucial element, enabling clinicians to treat minute veins that may be impossible to treat with other therapies.
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5

Zafar Ali, Syed, i Muhammad Khawar Islam. "Statistical dependence analysis of Erbium doped fiber ring lasers (EDFRL) chaos". Results in Optics 5 (grudzień 2021): 100167. http://dx.doi.org/10.1016/j.rio.2021.100167.

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6

Zhou, Ziyue. "Design of Spontaneous Emission Spectra Amplified by S-Band Fiber and Optimization of Output Spectral Peak Power". Highlights in Science, Engineering and Technology 72 (15.12.2023): 1023–29. http://dx.doi.org/10.54097/tzfv4695.

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The thulium-doped fiber amplifier stands out as the most promising amplifier within the S-band spectrum. This paper delves into the exploration of a 1.47um Tm^(3+)-doped fluorinated fiber amplifier as the primary subject of research. This paper approach begins by establishing the rate equation and power propagation equation for the thulium ion level structure, followed by rigorous mathematical analysis and solutions. Subsequently, we employ MATLAB programming to perform comprehensive calculations, scrutinizing the amplified spontaneous emission spectra's variation concerning Thulium-Doped Fiber Amplifier (TDFA) length and pump power. In a quest for optimal performance, this paper turn to the simulated annealing algorithm to fine-tune the doping concentration and fiber length, ultimately achieving the most favorable output spectral gain. Through systematic experimentation and parameter manipulation, we've unveiled a substantial breakthrough, with our research yielding an impressive optimal gain of 31.71 dB. The ramifications of this work extend far beyond the confines of this study. It sets a solid foundation for advancements in fiber fabrication and paves the way for the realization of fiber lasers, promising significant contributions to the expansion of S-band fiber communication systems. Our findings hold great promise and are poised to drive innovation in this critical area of telecommunications.
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7

Srinivasan, Thulasi, i Murat Yildirim. "Advances in Ultrafast Fiber Lasers for Multiphoton Microscopy in Neuroscience". Photonics 10, nr 12 (26.11.2023): 1307. http://dx.doi.org/10.3390/photonics10121307.

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Multiphoton microscopy (MPM) has emerged as a vital tool in neuroscience, enabling deeper imaging with a broader field of view, as well as faster and sub-cellular resolution. Recent innovations in ultrafast fiber laser technology have revolutionized MPM applications in living brains, offering advantages like cost-effectiveness and user-friendliness. In this review, we explore the progress in ultrafast fiber laser technology, focusing on its integration into MPM for neuroscience research. We also examine the utility of femtosecond fiber lasers in fluorescence and label-free two- and three-photon microscopy applications within the field. Furthermore, we delve into future possibilities, including next-generation fiber laser designs, novel laser characteristics, and their potential for achieving high spatial and temporal resolution imaging. We also discuss the integration of fiber lasers with implanted microscopes, opening doors for clinical and fundamental neuroscience investigations.
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8

Deepak, M. "A Study of Secured Enabled Passive Optical Network Enabling RoF". Indonesian Journal of Electrical Engineering and Computer Science 9, nr 1 (1.01.2018): 43. http://dx.doi.org/10.11591/ijeecs.v9.i1.pp43-48.

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<p>Innovation is an incorporation of radio sign in optical fiber transmission inside of system foundations that are thought to be financially savvy, pragmatic and moderately adaptable framework setup for whole deal transport remote signs. This venture proposes a Next era PON construction modeling backings RoF and OFDMA signal coordination without WDM lasers, and exhibit that 10-Gb/s OFDMA and three RF signals at 2.1GHz are transmitted more than 20km SMF in a 32-ONU in both upstream and downstream bearing. A security control unit and an optical switch are utilized associating four Optical Line Terminations (OLTs) with everyone serving just 32 Optical Network Units (ONUs). Insurance control unit gathers data of ONUs served by each OLT, and when an OLT falls flat, it will educate an active OLT to help its unique ONUs together with the burden served by the fizzled OLT.</p>
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9

Dianov, E. M. "Fibre lasers". Quantum Electronics 46, nr 12 (28.12.2016): 1067. http://dx.doi.org/10.1070/qel16270.

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10

Fermann, Martin E., i Ingmar Hartl. "Ultrafast fibre lasers". Nature Photonics 7, nr 11 (20.10.2013): 868–74. http://dx.doi.org/10.1038/nphoton.2013.280.

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11

Heber, Joerg. "Solar fibre lasers". Nature Materials 11, nr 4 (22.03.2012): 266. http://dx.doi.org/10.1038/nmat3295.

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12

Vasdekis, A. E., G. E. Town, G. A. Turnbull i I. D. W. Samuel. "Fluidic fibre dye lasers". Optics Express 15, nr 7 (2007): 3962. http://dx.doi.org/10.1364/oe.15.003962.

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13

Pureur, David, i Alexandre Biasi. "Les lasers à fibre". Photoniques, nr 51 (styczeń 2011): 47–48. http://dx.doi.org/10.1051/photon/20115147.

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14

Jauregui, Cesar, Jens Limpert i Andreas Tünnermann. "High-power fibre lasers". Nature Photonics 7, nr 11 (20.10.2013): 861–67. http://dx.doi.org/10.1038/nphoton.2013.273.

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15

Fermann, Martin E., i Ingmar Hartl. "Erratum: Ultrafast fibre lasers". Nature Photonics 7, nr 12 (28.10.2013): 1006. http://dx.doi.org/10.1038/nphoton.2013.317.

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16

Fermann, Martin E., i Ingmar Hartl. "Erratum: Ultrafast fibre lasers". Nature Photonics 7, nr 12 (28.10.2013): 1006. http://dx.doi.org/10.1038/nphoton.2013.319.

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17

Pile, David. "Fibre lasers: Triwavelength source". Nature Photonics 10, nr 10 (29.09.2016): 621. http://dx.doi.org/10.1038/nphoton.2016.195.

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18

Liu, Yuan. "Design of 1000-1100nm fiber laser based on neodymium ion". Journal of Physics: Conference Series 2786, nr 1 (1.06.2024): 012021. http://dx.doi.org/10.1088/1742-6596/2786/1/012021.

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Abstract Nd3+ ions have a large emission cross-section in the 1000 ∼ 1100 nm band. In this study, we focus on the spectral properties of Nd3+ ions, simulate the power transfer equation of the Nd-doped ion fiber laser. The design of the Nd-doped fiber laser is aimed at laser generation by considering parameters such as absorption cross section, particle number concentration, loss coefficient, and reflectivity of the front and rear cavity mirrors. The experimental process begins with the design of specific parameters for the two cavity mirrors at 1060 nm using Matlab, based on the required reflectivity parameters. The simulation demonstrates that laser generation begins at a pump light power of 9.8 W, and the laser power reaches 36.8 W. Observe the propagation power of the signal light and pump light, when the pump light propagates in the forward direction, the forward propagation power of the pump light will decrease. This paper summarizes and innovates the numerical simulation parameters of Nd-doped ion fiber laser. The specific innovations are reflected in the proposed new emission cross section of pump light and absorption cross section of signal light, as well as the novel mathematical model for designing the front cavity mirror and the back cavity mirror. The experiments provide better data support for the preparation of 1000 ∼ 1100 nm doped Nd-doped fiber lasers.
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19

Chernysheva, Maria, Aleksey Rozhin, Yuri Fedotov, Chengbo Mou, Raz Arif, Sergey M. Kobtsev, Evgeny M. Dianov i Sergei K. Turitsyn. "Carbon nanotubes for ultrafast fibre lasers". Nanophotonics 6, nr 1 (6.01.2017): 1–30. http://dx.doi.org/10.1515/nanoph-2015-0156.

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AbstractCarbon nanotubes (CNTs) possess both remarkable optical properties and high potential for integration in various photonic devices. We overview, here, recent progress in CNT applications in fibre optics putting particular emphasis on fibre lasers. We discuss fabrication and characterisation of different CNTs, development of CNT-based saturable absorbers (CNT-SA), their integration and operation in fibre laser cavities putting emphasis on state-of-the-art fibre lasers, mode locked using CNT-SA. We discuss new design concepts of high-performance ultrafast operation fibre lasers covering ytterbium (Yb), bismuth (Bi), erbium (Er), thulium (Tm) and holmium (Ho)-doped fibre lasers.
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20

Corner, L. "Fibre lasers for gamma colliders". European Physical Journal Special Topics 223, nr 6 (maj 2014): 1207–11. http://dx.doi.org/10.1140/epjst/e2014-02174-2.

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21

Kurkov, Andrei S., i Evgenii M. Dianov. "Moderate-power cw fibre lasers". Quantum Electronics 34, nr 10 (31.10.2004): 881–900. http://dx.doi.org/10.1070/qe2004v034n10abeh002739.

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22

Davydov, B. L., i D. I. Yagodkin. "A LiNbO3switch for fibre lasers". Quantum Electronics 35, nr 11 (30.11.2005): 1071–74. http://dx.doi.org/10.1070/qe2005v035n11abeh009851.

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23

Carter, Jeremy N., Richard G. Smart, Anne C. Tropper i David C. Hanna. "Thulium-doped fluorozirconate fibre lasers". Journal of Non-Crystalline Solids 140 (styczeń 1992): 10–15. http://dx.doi.org/10.1016/s0022-3093(05)80732-x.

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24

Langridge, P. E., i W. J. Firth. "Doubly nonlinear fibre loop lasers". Optics Communications 86, nr 2 (listopad 1991): 170–76. http://dx.doi.org/10.1016/0030-4018(91)90555-r.

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25

Desfarges-Berthelemot, Agnès, Vincent Kermène, David Sabourdy, Johan Boullet, Philippe Roy, Jerôme Lhermite i Alain Barthélémy. "Coherent combining of fibre lasers". Comptes Rendus Physique 7, nr 2 (marzec 2006): 244–53. http://dx.doi.org/10.1016/j.crhy.2006.01.019.

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26

Turitsyn, Sergei K., Sergey A. Babin, Dmitry V. Churkin, Ilya D. Vatnik, Maxim Nikulin i Evgenii V. Podivilov. "Random distributed feedback fibre lasers". Physics Reports 542, nr 2 (wrzesień 2014): 133–93. http://dx.doi.org/10.1016/j.physrep.2014.02.011.

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27

Canning, John. "Fibre lasers and related technologies". Optics and Lasers in Engineering 44, nr 7 (lipiec 2006): 647–76. http://dx.doi.org/10.1016/j.optlaseng.2005.02.008.

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28

Gabzdyl, Jack. "Fibre lasers make their mark". Nature Photonics 2, nr 1 (styczeń 2008): 21–23. http://dx.doi.org/10.1038/nphoton.2007.268.

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29

Lauridsen, V. C., J. H. Povlsen i P. Varming. "Design of DFB fibre lasers". Electronics Letters 34, nr 21 (1998): 2028. http://dx.doi.org/10.1049/el:19981446.

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30

Mears, R. J., i S. R. Baker. "Erbium fibre amplifiers and lasers". Optical and Quantum Electronics 24, nr 5 (maj 1992): 517–38. http://dx.doi.org/10.1007/bf00619752.

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31

Alsous, M. B., J. Bittebierre, R. Richier i H. Ahmad. "Construction of all-fibre fibre lasers with multidielectric mirrors". Pure and Applied Optics: Journal of the European Optical Society Part A 5, nr 6 (listopad 1996): 777–90. http://dx.doi.org/10.1088/0963-9659/5/6/004.

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32

Surin, A. A., S. V. Larin, T. E. Borisenko, K. Yu Prusakov i Yu S. Stirmanov. "High-power cw visible lasers pumped by Raman fibre lasers". Quantum Electronics 46, nr 12 (28.12.2016): 1097–101. http://dx.doi.org/10.1070/qel16222.

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33

Woodward, Robert, i Edmund Kelleher. "2D Saturable Absorbers for Fibre Lasers". Applied Sciences 5, nr 4 (30.11.2015): 1440–56. http://dx.doi.org/10.3390/app5041440.

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34

Kochanowicz, M., D. Dorosz, J. Żmojda i J. Dorosz. "Beam Quality of Multicore Fibre Lasers". Acta Physica Polonica A 118, nr 6 (grudzień 2010): 1177–82. http://dx.doi.org/10.12693/aphyspola.118.1177.

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35

Bouteiller, J. C. "Linewidth predictions for Raman fibre lasers". Electronics Letters 39, nr 21 (2003): 1511. http://dx.doi.org/10.1049/el:20030980.

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36

Supriya, Lakshmi. "Bacterial fibre shines lasers through water". New Scientist 235, nr 3140 (sierpień 2017): 7. http://dx.doi.org/10.1016/s0262-4079(17)31643-3.

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37

Kurkov, Andrei S. "Fifth Russian Workshop on Fibre Lasers". Quantum Electronics 42, nr 9 (30.09.2012): 753. http://dx.doi.org/10.1070/qe2012v042n09abeh014943.

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38

Babin, S. A., i S. L. Semjonov. "Eighth Russian Workshop on Fibre Lasers". Quantum Electronics 48, nr 12 (18.12.2018): 1083. http://dx.doi.org/10.1070/qel16921.

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39

Ibsen, M., E. Rønnekleiv, G. J. Cowle, M. N. Zervas i R. I. Laming. "Multiple wavelength all-fibre DFB lasers". Electronics Letters 36, nr 2 (2000): 143. http://dx.doi.org/10.1049/el:20000195.

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40

Liao, Z. M., i G. P. Agrawal. "Mode-partition noise in fibre lasers". Electronics Letters 36, nr 14 (2000): 1188. http://dx.doi.org/10.1049/el:20000862.

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41

Chen, W. C., W. C. Xu, F. Song, M. C. Shen, D. A. Han i L. B. Chen. "Vector solitons in femtosecond fibre lasers". European Physical Journal D 48, nr 2 (19.03.2008): 255–60. http://dx.doi.org/10.1140/epjd/e2008-00048-8.

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42

Chen, W. C., W. C. Xu, F. Song, M. C. Shen, D. A. Han i L. B. Chen. "Vector solitons in femtosecond fibre lasers". European Physical Journal D 50, nr 1 (listopad 2008): 123. http://dx.doi.org/10.1140/epjd/e2008-00194-y.

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43

Sabourdy, D., V. Kermène, A. Desfarges-Berthelemot, L. Lefort, A. Barthélémy, C. Mahodaux i D. Pureur. "Power scaling of fibre lasers with all-fibre interferometric cavity". Electronics Letters 38, nr 14 (2002): 692. http://dx.doi.org/10.1049/el:20020505.

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44

Kobtsev, Sergey. "Methods of Radiation Wavelength Tuning in Short-Pulsed Fibre Lasers". Photonics 11, nr 1 (28.12.2023): 28. http://dx.doi.org/10.3390/photonics11010028.

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Methods of output wavelength tuning in short-pulsed fibre lasers are analysed. Many of them rely on spectral selection principles long used in other types of lasers. For compatibility with the fibre-optical format, the corresponding elements are sealed in compact, airtight volumes with fibre-optical radiation input and output. A conclusion is presented about the relatively small number of inherently “fibre-optical” ways of tuning the wavelength of radiation. It is demonstrated that the range of output wavelength tuning in short-pulsed fibre lasers may span hundreds of nanometres (even without extension beyond the active medium gain contour through nonlinear effects). From the presented review results, it may be concluded that the search for the optimal tuning method complying with the user-preferred all-PM-fibre short-pulsed laser design is not yet complete.
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45

He, Wentao, i Zhiwei Men. "Analysis on Transmission Characteristics of Stimulated Raman Scattering Based on the Multi-Sensor Signal Enhancement Technique". Scientific Programming 2022 (11.05.2022): 1–9. http://dx.doi.org/10.1155/2022/5726718.

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In recent 20 years, fibre laser system has been developed rapidly and widely used for its high quality, high efficiency, high robustness, and compactness. However, there are still many factors (such as non-linear effect, thermal effect, and mode instability) that limit the further increase of power of fibre laser system. Stimulated Raman scattering (SRS) is one of the main limitations in the transmission process of fibre lasers. It not only reduces the output efficiency of fibre lasers, but also increases the damage risk of reverse Stokes light to the system. Recent studies have shown that SRS in low-mode fibres can lead to quasi-static mode degradation in addition to mode instability. With the introduction of multi-sensor enhancement technology in the fibre field, it becomes an effective means to popularise high-power and high-beam quality fibre lasers. Based on the multi-sensor signal enhancement technology, this paper explores the influence of this technology on the output efficiency of SRS in the mode-reducing fibre laser, which provides a new idea and method for the output efficiency and transmission analysis method of fibre laser.
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46

ZHANG Xue-xia, 张雪霞, 葛廷武 GE Ting-wu, 谭祺瑞 TAN Qi-rui, 刘琛辰 LIU Chen-chen i 王智勇 WANG Zhi-yong. "Research of Yb-doped All Fibre Lasers". ACTA PHOTONICA SINICA 44, nr 10 (2015): 1014002. http://dx.doi.org/10.3788/gzxb20154410.1014002.

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47

Kobtsev, Sergey M. "Artificial saturable absorbers for ultrafast fibre lasers". Optical Fiber Technology 68 (styczeń 2022): 102764. http://dx.doi.org/10.1016/j.yofte.2021.102764.

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48

Cheng Xue, 程雪, 王建立 Wang Jianli i 刘昌华 Liu Changhua. "Beam combining of high energy fibre lasers". Infrared and Laser Engineering 47, nr 1 (2018): 103011. http://dx.doi.org/10.3788/irla201847.0103011.

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49

France, P. W. "A Review of Fluoride Glass Fibre Lasers". Materials Science Forum 67-68 (styczeń 1991): 503–8. http://dx.doi.org/10.4028/www.scientific.net/msf.67-68.503.

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50

Shi, Jindan, Shaif-ul Alam i Morten Ibsen. "Highly efficient Raman distributed feedback fibre lasers". Optics Express 20, nr 5 (15.02.2012): 5082. http://dx.doi.org/10.1364/oe.20.005082.

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