ファイバフューズ (2010年1月-)

1. 半澤 信智, 黒河 賢二, 辻川 恭三, 中島 和秀, 山本 文彦：“空孔アシストファイバにおける特異なファイバヒューズ伝搬特性”, 電子情報通信学会和文論文誌B, J96-B, 12, pp. 1369-1377 (2013).
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2. K. Nakajima, K. Saito, Y. Yamada, K. Kurokawa, T. Shimizu, C. Fukai and T. Matsui: “Holey fibers for low bend loss”, Nanophotonics, 2, 5-6, p. 341353 (2013).
   OnlineJournal

3. F. Domingues, P. Antunes, N. Alberto and P. S. André: “Refractive index sensor based on optical fiber void cavities produced by the catastrophic fuse effect”, Advanced Photonics 2013, OSA Technical Digest (2013).
   SM4C.3.
   OnlineJournal

4. K. Kurokawa and N. Hanzawa: “Suppression of fiber fuse propagation and its break in compact fiber fuse terminator”, OptoElectronics and Communications Conf. held jointly with 2013 Int. Conf. on Photonics in Switching (OECC/PS) (2013).
   (Paper WS4-5).
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5. T. Kinoshita, N. Sato and M. Yamada: “Detection and termination system for optical fiber fuse”, OptoElectronics and Communications Conf. held jointly with 2013 Int. Conf. on Photonics in Switching (OECC/PS) (2013).
   (Paper WS4-6).
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6. H. Zhang, P. Zhou, X. Wang, H. Xiao and X. Xu: “Fiber fuse effect in high-power double-clad fiber laser”, Conf. on Lasers and Electro-Optics Pacific Rim (CLEO-PR) (2013).
   (Paper WPD-4).
   OnlineJournal

7. D. A. Dvoretskiy, V. F. Hopin, A. N. Gur'yanov, L. K. Denisov, L. D. Ishakova and I. A. Bufetov: “Optical losses in silica based fibers within the temperature range from 300 to 1500 K”, Science and Education: electronic scientific-technical journal, 5 (2013).
   (in Russian).
   OnlineJournal

8. 首藤 義人：“光コネクタにおける高パワー通光時の損傷現象の検討”, 電子情報通信学会和文論文誌B, J96-B, 6, pp. 605-614 (2013).
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9. 加藤 進：“イオン化に伴う波面の構造と形成機構”, 日本物理学会第68回年次大会講演概要集, No. 2 (2013).
   (27pPSB-35).
   Homepage

10. S. Todoroki: “Fiber fuse propagation modes in typical single-mode fibers”, Optical Fiber Communication Conference, OSA Technical DigestOptical Society of America (2013).
    paper JW2A.11.
    OnlineJournal

11. 轟 眞市：“ファイバフューズの伝搬モードと伝搬しきい値”, 電子情報通信学会和文論文誌B, J96-B, 3, pp. 243-248 (2013).
    (解説論文、ネットワーク社会のさらなる発展を支える光通信技術論文特集).
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12. 黒河 賢二：“光ファイバ通信の高入力化に向けた光ファイバの検討”, 電子情報通信学会和文論文誌B, J96-B, 3, pp. 348-355 (2013).
    Homepage

13. 山田 誠, 木下 貴博, 巴 亮清, 渋谷 隆：“光ファイバヒューズによって形成された空孔からの光散乱特性”, 電子情報通信学会和文論文誌B, J95-B, 11, pp. 1529-1536 (2012).
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14. A. Y. Dovzhenko, E. N. Rumanov and O. E. Yachmeneva: “Effect of slight damage on the action of an optical fiber”, Dokl. Phys., 57, 10, pp. 383-386 (2012).
    (Originally published in Russian, Doklady Akademii Nauk, 2012, Vol. 446, No. 5, pp. 510513).
    OnlineJournal

15. F. Domingues, A. R. Frias, P. Antunes, A. O. P. Sousa, R. A. S. Ferreira, and P. S. André: “Observation of fuse effect discharge zone nonlinear velocity regime in erbium-doped fibres”, Electron. Lett., 48, 20, pp. 1295-1296 (2012).
    OnlineJournal

16. K. Kurokawa: “Optical fiber for high-power optical communication”, Crystals, 2, 4, pp. 1382-1392 (2012).
    OnlineJournal

17. A. M. Rocha, G. Fernandes, F. Domingues, M. Niehus, M. Facão and P. S. André: “Halting the fuse discharge propagation using optical fiber microwires”, Optics Express, 20, 19, pp. 21083-21088 (2012).
    OnlineJournal

18. E. H. Sekiya, K. Saito, Y. Bing, A. Ogura and K. Ohsono: “Fiber fuse in multi core fibers”, 電子情報通信学会技術研究報告 OFT 光ファイバ応用技術, 112, 194, pp. 19-22 (2012).
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19. M. Yamada, A. Tomoe, T. Kinoshita, O. Koyama, Y. Katuyama and T. Shibuya: “Heating and burning of optical fibers and cables by light scattered from bubble train formed by optical fiber fuse”, IEICE Transactions on Communications, E95.B, 8, pp. 2638-2641 (2012).
    OnlineJournal

20. F. Domingues, A. Rocha, P. Antunes, A. R. Frias, R. A. S. Ferreira and P. S. André: “Evaluation of the fuse effect propagation velocity in bend loss insensitive fibers”, Technical Digest - 17th OptoElectronics and Communications Conference, OECC2012, pp. 799-800 (2012).
    6C3-2.
    OnlineJournal

21. F. Domingues, A. Rocha, A. R. Frias and P. S. André: “Evaluation of the temperature increase on the fiber fuse effect end point”, the 14th International Conference on Transparent Optical Networks (ICTON 2012), Coventry, England (2012).
    (Tu.P.22).
    OnlineJournal

22. M. Domingues, A. Rocha, P. S. André, A. Frias and M. André: “Temperature monitoring of bend insensitive fibers after the fuse effect propagation”, Optical Sensors 2012, OSA Technical Digest (2012).
    STu1f.4.
    OnlineJournal

23. M. Yamada, A. Tomoe and H. Takara: “Light scattering characteristics of hole formed by fibre fuse”, Electronics Letters, 49, 9, pp. 519-520 (2012).
    OnlineJournal

24. S. Todoroki: “Partially self-pumped fiber fuse propagation through a white tight-buffered single-mode optical fiber”, Optical Fiber Communication Conference, OSA Technical DigestOptical Society of America (2012).
    paper OTh4I.4.
    OnlineJournal

25. 黒河 賢二, 半澤 信智, 辻川 恭三, 冨田 茂：“ホールアシストファイバにおけるファイバヒューズ伝搬の孔径依存性”, 電子情報通信学会技術研究報告 OFT 光ファイバ応用技術, pp. 73-76 (2012).
    

26. 首藤 義人：“単一モード光ファイバにおけるファイバヒューズの光パワーしきい値の検討”, 電子情報通信学会和文論文誌B, J95-B, 1, pp. 1-10 (2012).
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27. S. Todoroki: “Threshold power reduction of fiber fuse propagation through a white tight-buffered single-mode optical fiber”, IEICE Electronics Express, 8, 23, pp. 1978-1982 (2011).
    OnlineJournal

28. K. Kurokawa, N. Hanzawa, K. Tsujikawa and S. Tomita: “Hole-size dependence of fiber fuse propagation in hole-assisted fiber (HAF)”, Technical Digest of Microoptics Conference (2011).
    (H-30).
      Download

29. P. S. André, F. Domingues, M. Facão and A. M. Rocha: “Optical fuse discharge temperature determination employing the CIE color coordinate”, Conference on Lasers and Electro-Optics Pacific Rim and International Quantum Electronics Conference (CLEOPR/IQEC), Sydney, Australia, pp. 1457-1549 (2011).
    (3700-PO-12).
    Homepage

30. F. Domingues, A. M. Rocha, and P. André: “High-power effects in damaged and contaminated optical fiber connectors”, Microwave and Optical Technology Letters, 53, 11, pp. 2485-2488 (2011).
    OnlineJournal

31. 首藤 義人：“単一モード光ファイバにおけるファイバヒューズの熱伝導モデルの検討”, 電子情報通信学会和文論文誌B, J94-B, 8, pp. 928-937 (2011).
    Download Homepage 関連英語論文 

32. M. Yamada, A. Tomoe, O. Koyama, Y. Katsuyama and T. Shibuya: “Heating and burning of various optical fibers by light scattered from bubble train formed by fiber fuse”, Technical Digest - 16th OptoElectronics and Communications Conference, OECC2011, pp. 581-582 (2011).
    (7P3-32).
    Download

33. A. Rocha, G. Fernandes, F. Domingues, A. Pinto, M. Facão and P. André: “Fiber fuse effect propagation break using optical fiber taper”, Technical Digest - 16th OptoElectronics and Communications Conference, OECC2011, pp. 593-594 (2011).
    (7P3-38).
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34. A. M. Rocha, F. Domingues, M. Facão and P. S. André: “Threshold power of fiber fuse effect for different types of optical fiber”, the 13th International Conference on Transparent Optical Networks (ICTON 2011), IEEE, pp. 1457-1549 (2011).
    (Tu.P.13; Stockholm, Sweden, 26-30 June 2011).
    OnlineJournal

35. K. Kurokawa, N. Hanzawa, K. Tsujikawa and S. Tomita: “Power dependence of fiber fuse propagation with a long-period damage track in hole-assisted fiber”, IEICE Electronics Express, 8, 11, pp. 802-807 (2011).
    OnlineJournal

36. A. M. Rocha, P. F. C. Antunes, M. F. F. Domingues, M. Facão and P. S. André: “Detection of fiber fuse effect using FBG sensors”, IEEE Sensors Journal, 11, 6, pp. 1390 -1394 (2011).
    OnlineJournal

37. W. Ha, Y. Jeong and K. Oh: “Fiber fuse effect in hollow optical fibers”, Opt. Lett., 36, 9, pp. 1536-1538 (2011).
    OnlineJournal

38. A. M. Rocha, P. S. André, M. F. F. Domingues and M. Facão: “Reflected light due to the fiber fuse propagation”, International conference on computer as a tool - Eurocon 2011 and 8 th conference of Telecommunications, Lisbon, Portugal (2011).
    (535).
    Homepage

39. M. Yamada, O. Koyama, Y. Katsuyama and T. Shibuya: “Heating and burning of optical fiber by light scattered from bubble train formed by optical fiber fuse”, Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2011).
    (JThA1).
    OnlineJournal

40. K. Kurokawa and N. Hanzawa: “Fiber fuse propagation and its suppression in hole-assisted fibers”, IEICE Transactions on Communications, E94.B, 2, pp. 384-391 (2011).
    OnlineJournal

41. M. Facão, A. M. Rocha and P. S. André: “Traveling solutions of the fuse effect in optical fibers”, Journal of Lightwave Technology, 29, 1, pp. 109-114 (2011).
    OnlineJournal

42. 半澤 信智, 黒河 賢二, 辻川 恭三, 冨田 茂：“空孔アシスト光ファイバ(HAF)のファイバヒューズ耐性”, 電子情報通信学会技術研究報告 OFT 光ファイバ応用技術, pp. 1-4 (2010).
    

43. K. S. Abedin and M. Nakazawa: “Real time monitoring of a fiber fuse using an optical time-domain reflectometer”, Optics Express, 18, 20, pp. 21315-21321 (2010).
    OnlineJournal

44. 轟 眞市：“ファイバフューズの伝搬挙動”, 電子情報通信学会2010年ソサイエティ大会, 第B巻, 大阪府堺市 (2010).
    (シンポジウム: 光ファイバのハイパワー化に関する技術動向 BS-6).
    DigLib Homepage

45. 坂本 泰志, 松井 隆, 半澤 信智, 辻川 恭三, 黒河 賢二, 冨田 茂：“フォトニック結晶ファイバの実効断面積拡大と耐ヒューズ特性”, 電子情報通信学会2010年ソサイエティ大会, 第B巻, 大阪府堺市 (2010).
    (BS-6-3).
    Homepage

46. 半澤 信智, 黒河 賢二, 辻川 恭三, 冨田 茂：“空孔アシストファイバにおけるファイバヒューズ伝搬の観察”, 電子情報通信学会2010年ソサイエティ大会, 第B巻, 大阪府堺市 (2010).
    (B-13-5).
    Homepage

47. 辻川 恭三, 半澤 信智, 冨田 茂：“一次元熱伝導モデルによる光ファイバヒューズ現象の分析”, 電子情報通信学会2010年ソサイエティ大会, 第B巻, 大阪府堺市 (2010).
    (B-13-6).
    Homepage

48. V. I. Gorbachenko, A. Y. Dovzhenko, A. G. Merzhanov, E. N. Rumanov, V. E. Fortov and O. E. Yachmeneva: “Propagation limits for a slow wave of optical breakdown in a fiber light guide”, Dokl. Phys., 55, 8, pp. 384-387 (2010).
    (Originally published in Russian, Doklady Akademii Nauk, 2010, Vol. 433, No. 5, pp. 618621).
    OnlineJournal

49. N. Hanzawa, K. Kurokawa, K. Tsujikawa, T. Matsui, K. Nakajima, S. Tomita and M. Tsubokawa: “Suppression of fiber fuse propagation in hole assisted fiber and photonic crystal fiber”, J. Lightwave Technology, 28, 15, pp. 2115-2120 (2010).
    OnlineJournal

50. S. Todoroki: “Light and voids of fiber fuse: precise comparison of in situ image and fused fibers”, 19th International Laser Physics Workshop: Book of Abstracts, Foz do Iguaçu, Brazil, p. 463 (2010).
    (9.3.3).
    Homepage

51. N. Hanzawa, K. Kurokawa, K. Tsujikawa and S. Tomita: “Dynamics of new propagation mode of fiber fuse in hole-assisted fiber (HAF)”, Technical Digest - 15th OptoElectronics and Communications Conference, OECC2010, pp. 172-173 (2010).
    7C2-5.
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52. A. M. Rocha, P. Antunes, F. Domingues, M. Facão and P. S. André: “Configuration for detecting the fiber fuse propagation using a FBG sensor”, 12th International Conf. on Transparent Networks, Munich, Germany (2010).
    (We.P.20).
    OnlineJournal

53. A. M. Rocha, M. Facão and P. S. André: “Study of fiber fuse effect on different types of single mode optical fibers”, NOC/OC&I 2010 Proceedings : 15th European Conference on Networks and Optical Communications and 5th Conference on Optical Cabling and Infrastructure (ISBN: 9789729341939) (Ed. by D. Faulkner), Faro-Algarve, Portugal, Universidade do Algarve, pp. 71-75 (2010).
    (Presented on June 10).
    Homepage

54. N. Hanzawa, K. Kurokawa, K. Tsujikawa, K. Takenaga, S. Tanigawa, S. Matsuo and S. Tomita: “Observation of a propagation mode of a fiber fuse with a long-period damage track in hole-assisted fiber”, Optics Letters, 35, 12, pp. 2004-2006 (2010).
    OnlineJournal

55. K. Takenaga, S. Tanigawa, S. Matsuo, and M. Fujimaki: “Fiber fuse phenomenon in hole-assisted fibers”, Fujikura Technical Review, 40, pp. 12-15 (2011).
    Homepage

56. 竹永 勝宏, 谷川 庄二, 松尾 昌一郎, 藤巻 宗久：“空孔アシストファイバにおけるファイバヒューズ現象”, フジクラ技報, 118, pp. 1-5 (2010).
    Homepage

57. N. Hanzawa, K. Kurokawa, K. Tsujikawa, K. Takenaga, S. Tanigawa, S. Matsuo and S. Tomita: “New propagation mode of fiber fuse with a long-period damage track in hole-assisted fiber (HAF)”, Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2010).
    (OMO5).
    OnlineJournal

58. P. S. André, M. Facão, A. M. Rocha, P. Antunes and A. Martins: “Evaluation of the fuse effect propagation in networks infrastructures with different types of fibers”, Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2010).
    (JWA10).
    OnlineJournal

59. Y. Shuto: “Evaluation of high-temperature absorption coefficients of ionized gas plasmas in optical fibers”, IEEE Photon. Technol. Lett., 22, 3, pp. 134-136 (2010).
    OnlineJournal