ファイバフューズ (2014年1月-)

  1. V. A. Shcherbakova, S. S. Starikov, Y. A. Konin, A. I. Garanin and D. I. Nurmuhametov: “Fuse effect investigation in optical fiber for creation optical sensor structure”, 2019 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus), IEEE (2019).
    OnlineJournal

  2. Y. A. Konin, A. I. Garanin, V. A. Shcherbakova, D. I. Nurmuhametov and S. S. Starikov: “Research the thermal sensitivity of a fiber optic sensor created with the catastrophic fuse”, 2019 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus), IEEE (2019).
    OnlineJournal

  3. S. Jiang, L. Ma, W. Shuai, X. Fan and Z. He: “Mode-interference-induced oscillation in propagation speed of fiber fuse in few-mode fibers”, Optics Letters, 43, 17, pp. 4252-4255 (2018).
    OnlineJournal

  4. 菅原 一茂, 田辺 侑, 野添 紗希, 松井 隆, 辻川 恭三, 中島 和秀, 黒河 賢二:“異種ファイバ接続点近傍におけるファイバヒューズによる気泡間隔ゆらぎの観測”, 電子情報通信学会和文論文誌B, J101-B, 10, pp. 833-840 (2018).
    OnlineJournal

  5. Q.-R. Xiao, Jia-Ding, Y.-S. Huang, X.-J. Wang, Z.-H. Wang, D. Li, P. Yan and M.-L. Gong: “Internal features of fiber fuse in a Yb-doped double-clad fiber at 3kW”, Chinese Physics Lett., 35, 5, p. 054201 (2018).
    OnlineJournal

  6. S. Jiang, L. Ma, X. Fan, S. Wang and Z. He: “Observation of fiber fuse propagation speed oscillation due to inter-mode interference in two-mode fibers”, Optical Fiber Communication ConferenceOptical Society of America (2018).
    (Th2A.26; San Diego, CA, 15 March 2018).
    OnlineJournal

  7. K. Tsujikawa, K. Kurokawa, N. Hanzawa, S. Nozoe, T. Matsui and K. Nakajima: “Hole-assisted fiber based fiber fuse terminator supporting 22 W input”, Optical Fiber Technology, 42, pp. 24-28 (2018).
    OnlineJournal

  8. S. Jiang, L. Ma, X. Fan, W. Shuai and Z. He: “Observation of fiber fuse propagation speed with high temporal resolution using heterodyne detection and time-frequency analysis”, Optics Letters (2017).
    OnlineJournal

  9. M. de Fátima, F. Domingues, C. Rodriguez, J. Martins, N. Alberto, C. Marques, P. André, P. Antunes and M. F. Ferreira: “Cost effective in line optical fiber fabry perot interferometric pressure sensor”, Integrated Photonics Research, Silicon and Nanophotonics 2017 (2017).
    OnlineJournal  

  10. S. Jiang, L. Ma, S. Wang and Z. He: “Real-time observation of microsecond-order periodic velocity change of fiber fuse using heterodyne detection”, CLEO: Science and Innovations 2017, Optical Society of America, p. STh4K.2 (2017).
    OnlineJournal

  11. Y. Shuto: “Cavity formation modeling of fiber fuse in single-mode optical fibers”, Advances in OptoElectronics (2017).
    OnlineJournal

  12. S. Jiang, L. Ma, X. Fan, B. Wang and Z. He: “Real-time monitoring of fiber fuse by using optical frequency-domain reflectometry”, CLEO: Applications and Technology 2016, Optical Society of America, p. JTh2A.66 (2016).
    OnlineJournal

  13. Y. Shuto: “End-face damage and fiber fuse phenomena in single-mode fiber-optic connectors”, J. Photonics, 2016, (2016).
    OnlineJournal

  14. S. Jiang, L. Ma, X. Fan, B. Wang and Z. He: “Real-time locating and speed measurement of fibre fuse using optical frequency-domain reflectometry”, Scientific Reports, 6, p. 25585 (2016).
    OnlineJournal

  15. S. Todoroki: “Quantitative evaluation of fiber fuse initiation with exposure to arc discharge provided by a fusion splicer”, Scientific Reports, 6, p. 25366 (2016).
    OnlineJournal

  16. N. Hanzawa, K. Tsujikawa, K. Kurokawa, S. Nozoe, T. Matsui and F. Yamamoto: “Fiber fuse propagation characteristics of LP01 and LP11 modes in few-mode fiber”, Journal of Lightwave Technology (2016).
    OnlineJournal

  17. N. Alberto, C. Tavares, M. F. Domingues, S. F. H. Correia, C. Marques, P. Antunes, J. L. Pinto, R. A. S. Ferreira and P. S. André: “Relative humidity sensing using micro-cavities produced by the catastrophic fuse effect”, Optical and Quantum Electronics, 48, 3, pp. 1-8 (2016).
    OnlineJournal

  18. J.-Y. Sun, Q.-R. Xiao, D. Li, X.-J. Wang, H.-T. Zhang, M.-L. Gong and P. Yan: “Fiber fuse behavior in kw-level continuous-wave double-clad field laser”, Chinese Physics B, 25, 1, p. 014204 (2016).
    OnlineJournal

  19. V. P. Efremov, V. E. Fortov and A. A. Frolov: “Damage of silica-based optical fibers in laser supported detonation”, Journal of Physics: Conference Series, Vol. 653IOP Publishing, p. 012013 (2015).
    OnlineJournal

  20. V. P. Efremov, A. A. Frolov and V. E. Fortov: “Laser supported detonation in silica-based optical fibers”, Proc. 25th Int. Colloquium on the Dynamics of Explosions and Reactive Systems (Ed. by M. I. Radulescu), Leeds, UK (2015).
    (307).
    Homepage

  21. M. F. Domingues, P. Antunes, N. Alberto, R. Frias, R. A. S. Ferreira and P. André: “Cost effective refractive index sensor based on optical fiber micro cavities produced by the catastrophic fuse effect”, Measurement, 77, pp. 265-268 (2016).
    OnlineJournal

  22. M. de Fátima Domingues, T. Paixao, E. Mesquita, N. Alberto, A. R. Frias, R. A. S. Ferreira, H. Varum, P. Antunes and P. André: “Liquid hydrostatic pressure optical sensor based on micro-cavity produced by the catastrophic fuse effect”, IEEE Sensors Journal, 15, 10 (2015).
    OnlineJournal

  23. M. de Fátima Domingues, T. Paixao, E. Mesquita, N. Alberto, P. Antunes, H. Varum and P. André: “Hydrostatic pressure sensor based on micro-cavities developed by the catastrophic fuse effect”, 24th International Conference on Optical Fibre Sensors, Vol. 9634 of SPIE Proceedings, SPIE, p. 96345M (2015).
    (P49, Paper 9634-304).
    OnlineJournal

  24. M. F. Domingues, P. Antunes, N. Alberto, A. R. Frias, A. R. Bastos, R. A. S. Ferreira and P. André: “Enhanced sensitivity high temperature optical fiber FPI sensor created with the catastrophic fuse effect”, Microwave and Optical Technology Letters, 57, 4, pp. 972-974 (2015).
    OnlineJournal

  25. S. Todoroki: “Quantitative evaluation of fiber fuse initiation probability in typical single-mode fibers”, Optical Fiber Communication ConferenceOptical Society of America (2015).
    (W2A.33; Los Angeles, CA, 25 March 2015).
    OnlineJournal Abstract IntroductoryVideo 

  26. N. Hanzawa, K. Kurokawa, K. Tsujikawa, T. Mori, M. Wada and F. Yamamoto: “Fiber fuse propagation in LP11 mode in few-mode fiber”, Optical Fiber Communication Conference, OSA Technical DigestOptical Society of America (2015).
    (W4I.5).
    OnlineJournal

  27. M. Yamada, T. Kinoshita, Y. Kimura, O. Koyama and N. Sato: “Scattering characteristic of light generating on optical fiber fuse”, OptoElectronics and Communication Conference and Australian Conference on Optical Fibre Technology 2014 (OECC/ACOFT 2014) (2014).
    (TU3D2-2).
    Download Homepage

  28. M. F. Domingues, P. Antunes, N. Alberto, R. Frias, R. A. S. Ferreira and P. André: “Optical strain sensor based on fpi micro-cavities produced by the fiber fuse effect”, 23rd International Conference on Optical Fiber Sensors (Eds. by J. M. M. Serrano, M. López-Amo, J. M. López-Higuera and J. D. C. Jones), Vol. 9157 of SPIE Proceedings, SPIE, p. 91571Q (2014).
    (P48/Paper 9157-581).
    OnlineJournal

  29. G.-R. Lin, M. D. Baiad, M. Gagne, W.-F. Liu and R. Kashyap: “A novel refractive index sensor based on an induced micro-structure fiber”, 23rd International Conference on Optical Fiber Sensors (Eds. by J. M. M. Serrano, M. López-Amo, J. M. López-Higuera and J. D. C. Jones), Vol. 9157 of SPIE Proceedings, SPIE, p. 915773 (2014).
    (Paper 9157-227).
    OnlineJournal

  30. P. André, M. F. Domingues, P. Antunes, N. Alberto, A. R. Frias and R. A. S. Ferreira: “Sensors based on recycled optical fibers destroyed by the catastrophic fuse effect”, Second International Conference on Applications of Optics and Photonics (Eds. by M. F. P. C. M. Costa and R. N. Nogueira), Vol. 9286 of SPIE Proceedings, SPIE, p. 92862U (2014).
    (SENS I.1).
    OnlineJournal

  31. G.-R. Lin, M. D. Baiad, M. Gagne, W.-F. Liu and R. Kashyap: “Harnessing the fiber fuse for sensing applications”, Optics Express, 22, 8, pp. 8962-8969 (2014).
    OnlineJournal

  32. K. Kurokawa: “Techniques to detect and stop fiber fuses”, Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2014).
    (M3J).
    OnlineJournal

  33. Y. Shuto: “Heat conduction modeling of fiber fuse in single-mode optical fiber”, J. Photonics, 2014, p. 645207 (2014).
    OnlineJournal

  34. 轟 眞市:“ファイバフューズの伝搬モードと自己ポンプ効果”, レーザー学会学術講演会第34回年次大会, 福岡県北九州市 (2014).
    (G3 21pVII2).
    DigLib Homepage

  35. P. Antunes, M. F. F. Domingues, N. J. Alberto and P. S. André: “Optical fiber micro cavity strain sensors produced by the catastrophic fuse effect”, Photonics Technology Letters, 26, 1, pp. 78-81 (2014).
    OnlineJournal