next up previous [HOME in Japanese]
Next: HOME in Japanese Up: Contents of my Homepage Previous: Recent activities

Subsections


Papers on the focus of my interest

This page is out-of-date. Please visit http://fiberfuse.info/papers/ if you like. Thank you. 2013/02/11 S. Todoroki

Counter3

Japanese version


Talks & publications on Fiber fuse

This list was compiled for my own sake for leaning more about some specific topics. It is still less-than-perfect, but if you find some value in it, any feedback for improving this list is appreciated.

S. Todoroki

(Updated on Feb 10, 2013)


Fiber Fuse (Jan. 2010-)

A list of open access papers @mendeley.com
  1. S. Todoroki: ``Fiber fuse propagation modes for typical single-mode fibers'', Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2013).
    (JW2A.11).
    Homepage

  2. 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

  3. 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

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

  5. R. Kashyap: ``Fiber fuse - from a curious effect to a critical issue'', Proceedings of the 38th European Conference on Optical Communication (2012).
    (We.3.G.1).
    Download Homepage

  6. 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

  7. 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

  8. R. Kashyap: ``History and progress of the fibre fuse'', Technical Digest - 17th OptoElectronics and Communications Conference, OECC2012, pp. 807-808 (2012).
    6C4-1.
    OnlineJournal

  9. 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

  10. 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).
    Homepage

  11. 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

  12. S. Todoroki: ``Partially self-pumped fiber fuse propagation through a white tight-buffered single-mode optical fiber'', Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2012).
    (OTh4I.4).
    Download Homepage

  13. S. Todoroki: ``Fiber fuse propagation behavior'', Selected Topics on Optical Fiber Technology (Eds. by Y. Moh, S. W. Harun and H. Arof), InTech, Croatia, chapter 20, pp. 551-570 (2012).
    (ISBN 978-953-51-0091-1).
    OnlineJournal GoogleBooks Errata 

  14. 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

  15. 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).

  16. P. André, A. Rocha, F. Domingues and M. Facão: ``Thermal effects in optical fibres'', Developments in Heat Transfer (Ed. by M. A. dos Santos Bernardes), InTech, Croatia, chapter 1, pp. 1-20 (2011).
    (ISBN 978-953-307-569-3).
    OnlineJournal GoogleBooks

  17. 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

  18. 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).
    Homepage

  19. 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).
    Homepage

  20. 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), Stockholm, Sweden, pp. 1457-1549 (2011).
    (Tu.P.13).
    Homepage

  21. 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

  22. 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

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

  24. 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

  25. 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).
    Homepage

  26. 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

  27. 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).
    Download

  28. 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).
    Download

  29. 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

  30. 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

  31. 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

  32. 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.
    Download Homepage

  33. 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

  34. 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

  35. 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

  36. 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).
    Homepage

  37. 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).
    Homepage

  38. 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


Fiber Fuse (June 2005-)

  1. A. M. Rocha, M. Facão, A. Martins and P. S. André: ``Simulation of fiber fuse effect propagation'', International Conf. on Transparent Networks - Mediterranean Winter, 2009, Angers, France (2009).
    (FrP.12).
    OnlineJournal

  2. N. Hanzawa, K. Kurokawa, K. Tsujikawa, T. Matsui and S. Tomita: ``Suppression of fiber fuse propagation in photonic crystal fiber (PCF) and hole assisted fiber'', Technical Digest of Microoptics Conference, p. M7 (2009).

  3. K. S. Abedin, T. Miyazaki and M. Nakazawa: ``Measurements of spectral broadening and Doppler shift of backreflections from a fiber fuse using heterodyne detection'', Optics Letters, 34, 20, pp. 3157-3159 (2009).
    OnlineJournal

  4. H. Takara, H. Masuda, H. Kanbara, Y. Abe, Y. Miyamoto, R. Nagase, T. Morioka, S. Matsuoka, M. Shimizu and K. Hagimoto: ``Evaluation of fiber fuse characteristics of hole-assisted fiber for high power optical transmission systems'', Proceedings of the 35th European Conference on Optical Communication, p. 312 (2009).
    (P1.12).
    Download Homepage

  5. K. S. Abedin: ``Remote sensing of fiber fuse propagation using RF detection'', The Technical Report of The Proceedings of The Institute of Electronics, Information and Communication Engineers, OPE, Optoelectronics, 109, 159, pp. 43-46 (2009).

  6. K. S. Abedin, M. Nakazawa and T. Miyazaki: ``Backreflected radiation due to a propagating fiber fuse'', Optics Express, 17, 8, pp. 6525-6531 (2009).
    Download

  7. K. S. Abedin and T. Morioka: ``Remote detection of fiber fuse propagating in optical fibers'', Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2009).
    (OThD5).
    Download Homepage

  8. J. Wang, S. Gray, D. Walton and L. Zenteno: ``Fiber fuse in high-power optical fiber'', Passive Components and Fiber-based Devices V (Eds. by M.-J. Li, P. Shum, I. H. White and X. Wu), Vol. 7134 of SPIE Proceedings, SPIE, pp. 71342E-1-9 (2008).
    (Hangzhou, China).
    OnlineJournal

  9. A. Ankiewicz, W. Chen, P. St. J. Russell, M. Taki and N. Akhmediev: ``Velocity of heat dissipative solitons in optical fibers'', Opt. Lett., 33, 19, pp. 2176-2178 (2008).
    OnlineJournal

  10. S. Todoroki: ``In situ observation of modulated light emission of fiber fuse synchronized with void train over hetero-core splice point'', PLoS ONE, 3, 9, p. e3276 (2008).
    OnlineJournal DigLib

  11. K. Takenaga, S. Tanigawa, S. Matsuo, M. Fujimaki and H. Tsuchiya: ``Fiber fuse phenomenon in hole-assisted fibers'', Proceedings of the 34th European Conference on Optical Communication, Vol. 5, pp. 27-28 (2008).
    (P.1.14).
    OnlineJournal

  12. I. A. Bufetov, A. A. Frolov, A. V. Shubin, M. E. Likhachev, S. V. Lavrishchev and E. M. Dianov: ``Propagation of an optical discharge through optical fibres upon interference of modes'', Quantum Electronics, 38, 5, pp. 441-444 (2008).
    OnlineJournal

  13. K. Takenaga, S. Omori, R. Goto, S. Tanigawa, S. Matsuo and K. Himeno: ``Evaluation of high-power endurance of bend-insensitive fibers'', Proceedings of Optical Fiber Communication/National Fiber Optic Engineers Conference (2008).
    (JWA11).
    OnlineJournal

  14. N. Akhmediev, P. St. J. Russell, M. Taki and J. M. Soto-Crespo: ``Heat dissipative solitons in optical fibers'', Physics Letters A, 372, 9, pp. 1531-1534 (2008).
    OnlineJournal

  15. I. A. Bufetov, A. A. Frolov, A. V. Shubin, M. E. Likhachev, C. V. Lavrishchev and E. M. Dianov: ``Fiber fuse effect: New results on the fiber damage structure'', Proceedings of the 33rd European Conference on Optical Communication, Vol. 1, Berlin, Germany, IEE's Photonics Professional Network, pp. 79-80 (2007).
    (Mon 1.5.2).
    Homepage

  16. I. A. Bufetov, A. A. Frolov, A. V. Shubin, M. E. Likhachev, C. V. Lavrischev and E. M. Dianov: ``Fiber fuse effect under conditions of interference of two modes'', ICONO/LAT 2007 Technical Digest on CD-ROM, Minsk, Berarusi (2007).
    (L01/IV-2).
    Homepage

  17. S. I. Yakovlenko: ``Physical processes upon the optical discharge propagation in optical fiber'', Laser Physics, 16, 9, pp. 1273-1290 (2006).
    OnlineJournal

  18. E. D. Bumarin and S. I. Yakovlenko: ``Temperature distribution in the bright spot of the optical discharge in an optical fiber'', Laser Physics, 16, 8, pp. 1235-1241 (2006).
    OnlineJournal

  19. M. M. Lee, J. M. Roth, T. G. Ulmer and C. V. Cryan: ``The fiber fuse phenomenon in polarization-maintaining fibers at 1.55$\mu$m'', Proc. of the Conference on Lasers and Electro-Optics (CLEO) (2006).
    (JWB66).

  20. E. M. Dianov, V. E. Fortov, I. A. Bufetov, V. P. Efremov, A. A. Frolov, M. Y. Schelev and V. I. Lozovoi: ``Detonation-like mode of the destruction of optical fibers under intense laser radiation'', J. Exp. Theo. Phys. Lett., 83, 2, pp. 75-78 (2006).
    OnlineJournal

  21. E. M. Dianov, V. E. Fortov, I. A. Bufetov, V. P. Efremov, A. E. Rakitin, M. A. Melkumov, M. I. Kulish and A. A. Frolov: ``High-speed photography, spectra, and temperature of optical discharge in silica-based fibers'', IEEE Photon. Technol. Lett., 18, 6, pp. 752-754 (2006).
    OnlineJournal

  22. S. I. Yakovlenko: ``Mechanism for the void formation in the bright spot of a fiber fuse'', Laser Physics, 16, 3, pp. 474-476 (2006).
    OnlineJournal

  23. Y. Shuto, S. Yanagi, S. Asakawa, M. Kobayashi and R. Nagase: ``Fiber fuse phenomenon in triangular-profile single-mode optical fibers'', J. Lightwave Technol., 24, 2, pp. 846-852 (2006).
    Download

  24. S. Todoroki: ``Transient propagation mode of fiber fuse leaving no voids'', Optics Express, 13, 23, pp. 9248-9256 (2005).
    OnlineJournal DigLib

  25. S. Todoroki: ``Animation of fiber fuse damage, demonstrating periodic void formation'', Opt. Lett., 30, 19, pp. 2551-2553 (2005).
    OnlineJournal DigLib

  26. I. A. Bufetov, A. A. Frolov, V. P. Efremov, M. Ya. Schelev, V. I. Lozovoi, V. E. Fortov and E. M. Dianov: ``Fast optical discharge propagation through optical fibres under kW-range laser radiation'', Proceedings of the 31st European Conference on Optical Communication, Vol. 6, Glasgow, Scotland, IEE's Photonics Professional Network, pp. 39-40 (2005).
    (Th 4.4.2).
    Download Homepage

  27. E. M. Dianov, I. A. Bufetov, A. E. Rakitin, M. A. Melkumov, A. A. Frolov, V. E. Fortov, V. P. Efremov and M. I. Kulish: ``Temperature of optical discharge under action of laser radiation in silica-based fibres'', Proceedings of the 31st European Conference on Optical Communication, Vol. 3, Glasgow, Scotland, IEE's Photonics Professional Network, pp. 469-470 (2005).
    (We 3.4.4).
    Download Homepage

  28. S. Todoroki: ``Origin of periodic void formation during fiber fuse'', Optics Express, 13, 17, pp. 6381-6389 (2005).
    OnlineJournal DigLib

  29. R. I. Golyatina and S. I. Yakovlenko: ``On the mechanism of optical discharge stop in the tapered region of fibre cladding'', Quantum Electron., 35, 5, pp. 422-424 (2005).
    OnlineJournal

  30. E. M. Dianov, V. E. Fortov, I. A. Bufetov, V. P. Efremov, A. E. Rakitin, M. M. Melkumov, M. I. Kulish and A. A. Frolov: ``Temperature of plasma in silica-based fibers under the action of CW laser radiation'', International Conference on Strongly Coupled Coulomb Systems Book of Abstracts, Moscow, Russia, pp. 25-26 (2005).
    (P23).
    Homepage

  31. S. Todoroki: ``In-situ observation of fiber-fuse propagation'', Jpn. J. Appl. Phys., 44, 6A, pp. 4022-4024 (2005).
    OnlineJournal DigLib


Fiber Fuse (ICONO/LAT2005)

  1. S. Todoroki: ``Ultrahigh-speed videography of fiber fuse propagation: a tool for studying void formation'', International Conference on Lasers, Applications, and Technologies 2005: Laser-Assisted Micro- and Nanotechnologies, Vol. 6161 of SPIE Proceedings, SPIE, pp. 61610L-1-8 (2006).
    (St. Petersburg, Russia, 15 May 2005, LSuH1).
    OnlineJournal DigLib GoogleBooks

  2. S. I. Yakovlenko: ``Plasma in bright spot and nature of void chain in fiber fuse track'', International Conference on Lasers, Applications, and Technologies 2005: Laser-Assisted Micro- and Nanotechnologies (Eds. by V. I. Konov, V. Y. Panchenko, K. Sugioka and V. P. Veiko), Vol. 6161 of SPIE Proceedings, SPIE, pp. 61610M-1-6 (2006).
    (St. Petersburg, Russia, 15 May 2005, LSuH2, in print).
    OnlineJournal BookStore

  3. I. A. Bufetov, E. M. Dianov, A. A. Frolov, V. E. Fortov and V. P. Efremov: ``Dynamics of optical discharge propagation along a fiber'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (LSuH3).
    Homepage

  4. A. A. Frolov, I. A. Bufetov and E. M. Dianov: ``Propagation of the optical discharge through the fibers with thin silica cladding'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (LSuH4).
    Homepage

  5. R. I. Golyatina, A. N. Tkachev and S. I. Yakovlenko: ``2D calculation of a fiber fuse propagation'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (LSuH5).
    Homepage

  6. S. Todoroki: ``In-situ observation of fiber-fuse ignition'', International Conference on Lasers, Applications, and Technologies 2005: Laser-Assisted Micro- and Nanotechnologies (Eds. by V. I. Konov, V. Y. Panchenko, K. Sugioka and V. P. Veiko), Vol. 6161 of SPIE Proceedings, SPIE, pp. 61610N-1-4 (2006).
    (St. Petersburg, Russia, 14 May 2005, LSK3).
    OnlineJournal DigLib GoogleBooks

  7. S. I. Yakovlenko: ``Plasma behind a front of a wave of optical fiber destruction and the nature of occurrence of periodic emptiness under influence of laser radiation'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (IFM4).
    Homepage

  8. S. I. Yakovlenko: ``About the reasons of strong photoabsorption in an optical fiber at the high temperature'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (IFM5).
    Homepage

  9. R. I. Golyatina, A. N. Tkachev and S. I. Yakovlenko: ``2D calculation of an absorption thermal wave of laser radiation in an optical fiber'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (IFM6).
    Homepage

  10. A. A. Frolov, E. M. Dianov and I. A. Bufetov: ``Destruction of silica fiber cladding by the optical discharge propagation'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (LThI6).
    Homepage

  11. I. A. Bufetov, E. M. Dianov and A. A. Frolov: ``Optic discharge propagation along a fiber core'', ICONO/LAT 2005 Technical Digest on CD-ROM, St. Petersburg, Russia (2005).
    (LWG4).
    Homepage


Fiber Fuse (2001-2005)

  1. I. A. Bufetov, A. A. Frolov, E. M. Dianov, V. E. Fortov and V. P. Efremov: ``Dynamics of fiber fuse propagation'', Optical Fiber Communication Conference, 2005. Technical Digest. OFC/NFOEC, Vol. 4, Anaheim, CA (2005).
    (OThQ7).
    Download Homepage

  2. I. A. Bufetov and E. M. Dianov: ``Optical discharge in optical fibers'', Physics-Uspekhi, 48, 1, pp. 91-94 (2005).
    OnlineJournal

  3. S. Todoroki: ``In-situ observation of fiber-fuse propagation'', Proc. 30th European Conf. Optical Communication Post-deadline papers, Stockholm, Sweden, Kista Photonics Research Center, pp. 32-33 (2004).
    (Th4.3.3).
    DigLib

  4. S. I. Yakovlenko: ``On reasons for strong absorption of light in an optical fibre at high temperature'', Quantum Electron., 34, 9, pp. 787-789 (2004).
    OnlineJournal

  5. R. I. Golyatina, A. N. Tkachev and S. I. Yakovlenko: ``Analysis of a heat wave induced by laser radiation absorption in an optical fiber on the basis of a 2D nonstationary heat conduction equation'', Tech. Phys., 50, 2, pp. 232-236 (2005).
    (Zh. Tech. Fiz. 75 (2) 94 (2005)).
    OnlineJournal

  6. R. I. Golyatina, A. N. Tkachev and S. I. Yakovlenko: ``Calculation of the motion of the laser radiation absorption thermal wave in a fiberguide'', Bulletin of the Lebedev Physics Institute, 9, pp. 22-29 (2004).
    (Kratk. Soobshch. Fiz., 9, pp.26-33, 2004, in Russian).
    Homepage

  7. R. I. Golyatina, A. N. Tkachev and S. I. Yakovlenko: ``Calculation of velocity and threshold for a thermal wave of laser radiation absorption in a fiber optic waveguide based on the two-dimensional nonstationary heat conduction equation'', Laser Physics, 14, 11, pp. 1429-1433 (2004).
    Homepage

  8. E. M. Dianov, I. A. Bufetov and A. A. Frolov: ``Destruction of silica fiber cladding by the fuse effect'', Opt. Lett., 29, 16, pp. 1852-1854 (2004).
    OnlineJournal

  9. E. M. Dianov, I. A. Bufetov and A. A. Frolov: ``Destruction of silica fiber cladding by the fuse effect'', OFC 2004 Technical Digest, Los Angels (2004).
    (TuB4).
    Download Homepage

  10. E. Yurkov and S. I. Yakovlenko: ``Instability of cylindrical cavity in a viscous liquid with a negative tension coefficient'', Bulletin of the Lebedev Physics Institute, 4, pp. 42-47 (2005).
    (Kratk. Soobshch. Fiz., 4, pp.50-56, 2005, in Russian).
    Homepage

  11. E. Yurkov and S. I. Yakovlenko: ``Instability of cylindrical cavity in a liquid for a negative tension coefficient'', Bulletin of the Lebedev Physics Institute, 11, pp. 16-23 (2004).
    (Kratk. Soobshch. Fiz., 4, pp.21-29, 2004, in Russian).
    Homepage

  12. S. I. Yakovlenko: ``The formation of a chain of cavities under the action of laser radiation in a fiberguide'', Bulletin of the Lebedev Physics Institute, 7, pp. 21-29 (2004).
    (Kratk. Soobshch. Fiz., 7, pp.25-34, 2004, in Russian).
    Homepage

  13. S. I. Yakovlenko: ``Plasma behind the front of a damage wave and the mechanism of laser-induced production of a chain of caverns in an optical fibre'', Quantum Electron., 34, 8, pp. 765-770 (2004).
    OnlineJournal

  14. A. N. Tkachev and S. I. Yakovlenko: ``Calculation of the velocity and threshold of a thermal absorption wave of laser radiation in an optical fibre'', Quantum Electron., 34, 8, pp. 761-764 (2004).
    OnlineJournal

  15. Y. Shuto, S. Yanagi, S. Asakawa, M. Kobayashi and R. Nagase: ``Fiber fuse phenomenon in step-index single-mode optical fibers'', IEEE J. Quantum Electronics, 40, 8, pp. 1113-1121 (2004).
    OnlineJournal

  16. Y. Shuto, S. Yanagi, S. Asakawa, M. Kobayashi and R. Nagase: ``Evaluation of high-temperature absorption coefficients of optical fibers'', IEEE Photon. Technol. Lett., 16, 4, pp. 1008-1010 (2004).
    OnlineJournal

  17. N. Nishimura, K. Seo, M. Shiino and R. Yuguchi: ``Study of high-power endurance characteristics in optical fiber link'', Technical Digest of Optical Amplifiers and Their Applications, pp. 193-195 (2003).
    (TuC4).
    Download

  18. S. Yanagi, S. Asakawa, M. Kobayashi, Y. Shuto and R. Naruse: ``Fiber fuse terminator'', The 5th Pacific Rim Conference on Lasers and Electro-Optics, Vol. 1, p. 386 (2003).
    (W4J-(8)-6, Taipei. Taiwan, 22-26 Jul. 2003).
    OnlineJournal

  19. Y. Shuto, S. Yanagi, S. Asakawa, M. Kobayashi and R. Nagase: ``Fiber fuse generation in single-mode fiber-optic connectors'', IEEE Photon. Techol. Lett., 16, 1, pp. 174-176 (2004).
    OnlineJournal

  20. E. M. Dianov, A. A. Frolov, I. A. Bufetov, S. L. Semenov, Y. K. Chamorovskii, G. A. Ivanov and I. L. Vorob'ev: ``The fibre fuse effect in microstructured fibres'', Quantum Electron., 34, 1, pp. 59-61 (2004).
    OnlineJournal

  21. K. Seo, N. Nishimura, M. Shiino, R. Yuguchi and H. Sasaki: ``Evaluation of high-power endurance in optical fiber links'', Furukawa Review, 24, pp. 17-22 (2003).
    Download Homepage

  22. K. Seo, N. Nishimura, M. Shiino, R. Yuguchi and H. Sasaki: ``Examination of threshold power for high-power problems in optical fiber'', Proc. Int. Laser Safety Conf., Jacksonville, FL, pp. 298-302 (2003).
    BookStore

  23. Y. Shuto, S. Yanagi, S. Asakawa, M. Kobayashi and R. Nagase: ``Simulation of fiber fuse phenomenon in single-mode optical fibers'', J. Lightwave Tech., 21, 11, pp. 2511-2517 (2003).
    OnlineJournal

  24. R. Kashyap: ``High average power effects in optical fibers and devices'', Reliability of Optical Fiber Components, Devices, Systems, and Networks (Eds. by H. G. Limberger and M. J. Matthewson), Vol. 4940 of SPIE Proceedings, SPIE, pp. 108-117 (2003).
    (Brugge, Belgium, 28 Oct. 2002).
    OnlineJournal

  25. R. M. Atkins, P. G. Simpkins and A. D. Yablon: ``Track of a fiber fuse: a Rayleigh instability in optical waveguides'', Opt. Lett., 28, 12, pp. 974-976 (2003).
    OnlineJournal

  26. E. M. Dianov, I. A. Bufetov, A. A. Frolov, Y. K. Chamorovsky, G. A. Ivanov and I. L. Vorobjev: ``Fiber fuse effect in microstructured fibers'', IEEE Photon. Technol. Lett., 16, 1, pp. 180-181 (2004).
    OnlineJournal

  27. E. Dianov, A. Frolov, I. Bufetov, Y. Chamorovsky, G. Ivanov and I. Vorobjev: ``Fiber fuse effect in microstructured fibers'', OFC 2003 Technical Digest, Vol. 2, Atlanta (2003).
    (FH2).
    Download

  28. S. Yanagi, S. Asakawa and R. Naruse: ``Characteristics of fiber-optic connector at high-power optical incidence'', Electron. Lett., 38, 17, pp. 977-978 (2002).
    OnlineJournal

  29. E. M. Dianov, I. A. Bufetov, A. A. Frolov, V. M. Mashinskii, V. G. Plotnichenko, M. F. Churbanov and G. E. Snopatin: ``Catastrophic destruction of fluoride and chalcogenide optical fibers'', Electron. Letters, 38, 15, pp. 783-784 (2002).
    OnlineJournal

  30. E. M. Dianov, I. A. Bufetov, A. A. Frolov, V. G. Plotnichenko, V. M. Mashinskii, M. F. Churbanov and G. E. Snopatin: ``Catastrophic destruction of optical fibres of various composition caused by laser radiation'', Quantum Electron., 32, 6, pp. 476-478 (2002).
    OnlineJournal

  31. R. Wyatt, R. M. Percival and R. Kashyap: ``Optical communications system and method of protecting an optical route'', US Patent No.7162161 (2001).
    (Issued: Jan. 9, 2007, Filed: Mar 14, 2001).
    Download


Fiber Fuse (-2000)

  1. R. M. Percival, E. S. R. Sikora and R. Wyatt: ``Catastrophic damage and accelerated ageing in bent fibres caused by high optical powers'', Electron. Lett., 36, 5, pp. 414-416 (2000).
    OnlineJournal

  2. D. D. Davis, S. C. Mettler and D. J. DiGiovani: ``A comparative evaluation of fiber fuse models'', Laser-Induced Damage in Optical Materials: 1996 (Eds. by H. E. Bennett, A. H. Guenther, M. R. Kozlowski, B. E. Newnam and M. J. Soileau), Vol. 2966 of SPIE Proceedings, SPIE, pp. 592-606 (1997).
    (Boulder, CO, USA, 7 Oct 1996).
    OnlineJournal

  3. R. Kashyap, A. Sayles and G. F. Cornwell: ``Heat flow modeling and visualization of catastrophic selfpropagating damage in singlemode optical fibers at low powers'', Laser-Induced Damage in Optical Materials: 1996 (Eds. by H. E. Bennett, A. H. Guenther, M. R. Kozlowski, B. E. Newnam and M. J. Soileau), Vol. 2966 of SPIE Proceedings, SPIE, pp. 586-591 (1997).
    (Boulder, CO, USA, 7 Oct 1996).
    OnlineJournal

  4. D. D. Davis, S. C. Mettler and D. J. DiGiovani: ``Experimental data on the fiber fuse'', 27th Annual Boulder Damage Symposium: Laser-Induced Damage in Optical Materials: 1995 (Eds. by H. E. Bennett, A. H. Guenther, M. R. Kozlowski, B. E. Newnam and M. J. Soileau), Vol. 2714 of SPIE Proceedings, SPIE, pp. 202-210 (1996).
    (Boulder, CO, USA, 30 Oct. 1995).
    OnlineJournal

  5. E. M. Dianov, V. M. Mashinskii, V. A. Myzina, Y. S. Sidorin, A. M. Streltsov and A. V. Chickolini: ``Change of refractive index profile in the process of laser-induced fiber damage'', Sov. Lightwave Commun., 2, pp. 293-299 (1992).

  6. T. J. Driscoll, J. M. Calo and N. M. Lawandy: ``Explaining the optical fuse'', Opt. Lett., 16, 13, pp. 1046-1048 (1991).
    OnlineJournal

  7. D. P. Hand and T. A. Birks: ``Single-mode tapers as 'fibre fuse' damage circuit-breakers'', Electron. Lett., 25, 1, pp. 33-34 (1989).
    OnlineJournal

  8. D. P. Hand and P. St. J. Russell: ``Soliton-like thermal shock-waves in optical fibers: origin of periodic damage tracks'', Eur. Conf. Optical Communications, pp. 111-114 (1988).
    (Brighton, UK, 11-15 Sep 1988).
    Download

  9. D. P. Hand and P. St. J. Russell: ``Solitary thermal shock waves and optical damage in optical fibers: the fiber fuse'', Opt. Lett., 13, 9, pp. 767-769 (1988).
    OnlineJournal

  10. R. Kashyap: ``Self-propelled self-focusing damage in optical fibres'', Lasers '87; Proc. the Tenth Int. Conf. Lasers and Applications, McLean, VA, STS Press, pp. 859-866 (1988).
    (Lake Tahoe, NV, Dec. 7-11, 1987).
    Homepage

  11. R. Kashyap and K. J. Blow: ``Observation of catastrophic self-propelled self-focusing in optical fibres'', Electron. Lett., 24, 1, pp. 47-49 (1988).
    OnlineJournal

  12. R. Kashyap and K. J. Blow: ``Spectacular demonstration of catastrophic failure in long lengths of optical fibre via self-propelled self-focusing'', Eighth National Quantum Electronics Conference, Post Deadline (Poster) Session PD7 (1987).
    (21-25 Sept.).


next up previous [HOME in Japanese]
Next: HOME in Japanese Up: Contents of my Homepage Previous: Recent activities
Compiled by the aid of LaTeX2e, BIBTeX, LaTeX2HTML & Ruby.
TODOROKI Shin-ichi, Feb 11, 2013