国際会議発表論文

  1. S. Todoroki, H. Fudouzi and K. Tsuchiya: “IoT-powered remote sensing system and portable tools for real-time evaluation of strain imaging sheets affixed to old outdoor structures”, Nondestructive Characterization and Monitoring of Advanced Materials, Aerospace, Civil Infrastructure, and Transportation XIII, SPIE Proceedings, SPIE (2019).
    10971-30.
    OnlineJournal

  2. H. Fudouzi, K. Tsuchiya, S. Todoroki, T. Hyakutake, H. Nitta, Y. Tanaka, T. Ohya and M. Arifuku: “Weatherability improvement of strain imaging sheet to use in real field for infrastructure inspection technology”, Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems, SPIE Proceedings, SPIE (2019).
    10970-44.
    OnlineJournal

  3. Y. Mizuno, H. Lee, N. Hayashi, K. Nakamura and S. Todoroki: “Plastic optical fiber fuse and its impact on sensing applications”, 25th International Conference on Optical Fiber Sensors, Vol. 10323 of SPIE Proceedings, SPIE, p. 103231D (2017).
    (Invited).
    OnlineJournal

  4. H. Fudouzi, K. Tsuchiya, S. Todoroki, T. Hyakutake, H. Nitta, I. Nishizaki, Y. Tanaka and T. Ohya: “Smart photonic coating for civil engineering field: for a future inspection technology on concrete bridge”, Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems, Vol. 10168 of SPIE Proceedings, SPIE, p. 1016820 (2017).
    OnlineJournal

  5. S. Todoroki: “Fiber fuse behavior veiled in its strong light emission”, The 2nd International Workshop on Luminescent Materials 2015 (2015).
    (invited).
    Homepage

  6. 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 

  7. Y. Mizuno, N. Hayashi, H. Tanaka, K. Nakamura and S. Todoroki: “Understanding the propagation mechanism of plastic optical fiber fuse”, OptoElectronics and Communication Conference and Australian Conference on Optical Fibre Technology 2014 (OECC/ACOFT 2014) (2014).
    (Paper 151.00; WE8F4).
    Download Homepage

  8. Y. Mizuno, N. Hayashi, H. Tanaka, K. Nakamura and S. Todoroki: “First observation of fiber fuse phenomenon in polymer optical fibers”, 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. 9157AI (2014).
    (P109/Paper 9157-173).
    OnlineJournal

  9. 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

  10. 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

  11. 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

  12. S. Inoue, S. Todoroki, S. Suehara, T. Konishi, S. Chu, K. Wada, T. Kikkojin, M. Isogai, Y. Katsuta, T. Sakamoto and A. Yasumori: “The advanced approaches to functional glasses”, 17th University Conference on Glass Science (2005).
    Homepage

  13. 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  

  14. 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  

  15. S. Todoroki: “Blog-based research notebook for personal knowledge management and bottom-up knowledge sharing” (2005).
    CoSMIC-NIST workshop (Data Driven Material Research).
    DigLib

  16. S. Todoroki, T. Konishi and S. Inoue: “Blog-based research notebook: personal informatics workbench for high-throughput experimentation”, The 3rd Japan-U.S. Workshop on Combinatorial Materials and Science Technology, Okinawa, Japan, p. 29 (2004).
    Homepage

  17. T. Konishi, T. Sakamoto, T. Kikkojin, A. Yasumori, S. Suehara, S. Todoroki and S. Inoue: “Combinatorial approach to new glasses”, The 3rd Japan-U.S. Workshop on Combinatorial Materials and Science Technology, Okinawa, Japan, p. 30 (2004).
    Homepage

  18. S. Todoroki and S. Inoue: “Optical fuse made of silica glass optical fibers spliced through low-melting glass with carbon-coating”, Proc. 20th Int. Cong. Glass, Kyoto (2004).
    (O-14-010).
    DigLib Homepage

  19. S. Inoue, S. Todoroki, T. Konishi, S.-Z. Chu, K. Wada, T. Kikkojin and A. Yasumori: “New routes to functional glasses”, Proc. 20th Int. Cong. Glass, Kyoto (2004).
    (O-16-018).
    Homepage

  20. T. Konishi, S. Suehara, S. Todoroki, S. Inoue, T. Kikkojin and A. Yasumori: “New routes to functional glasses”, Proc. 20th Int. Cong. Glass, Kyoto (2004).
    (P-07-061).
    Homepage

  21. H. Haquin, S. Todoroki, S. Inoue, V. Nazabal and J.-L. Adam: “Photo-induced phenomena in halogeno-chalcogenide glasses by ultra-short laser pulses”, Proc. 20th Int. Cong. Glass, Kyoto (2004).
    (P-09-005).
    Homepage

  22. 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

  23. S. Todoroki and S. Inoue: “Management of combinatorially acquired multi-dimensional data through object-oriented virtual sample library”, Combinatorial and Artificial Intelligence Methods in Material Science II (Eds. by R. A. Potyrailo, Q. Wang, T. Chikyow and A. Karim), Vol. 804 of Material Research Society Symposium Proceedings, Pennsylvania, USA, Material Research Society, pp. 327-332 (2004).
    (JJ6.7, ISBN1-55899-742-3).
    OnlineJournal DigLib  

  24. T. Konishi, T. Araki, K. Nishino, T. Tsuchiya, S. Sigeru, S. Todoroki and S. Inoue: “Combinatorial approach to low-melting and lead-free glasses”, MRS 2003 Fall Meeting ABSTRACTS, Boston, USA, p. 827 (2003).
    (JJ9.17).

  25. S. Inoue, T. Konishi, S. Todoroki, T. Araki, T. Kikojin and A. Yasumori: “Combinatorial glass research system”, Proceedings of The 8th IUMRS International Conference on Advanced Materials, Yokohama, JAPAN, The Materials Research Society of Japan (2003).
    (A3-12-P01).
    Homepage

  26. T. Konishi, T. Matsumoto, T. Kikkojin, A. Yasumori, S. Suehara, S. Todoroki and S. Inoue: “Combinatorial approach to synthesize glass containing divalent rare earth”, Proceedings of The 8th IUMRS International Conference on Advanced Materials, Yokohama, JAPAN, The Materials Research Society of Japan (2003).
    (A3-12-O05).
    Homepage

  27. S. Suehara, P. Thomas, A. P. Mirgorodsky, T. Merle-Mejean, J. C. Champarnaud-Mesjard, T. Aizawa, S. Hishita, S. Todoroki, T. Konishi and S. Inoue: “Optical response of electron pairs in TeO$_2$”, Proceedings of The 8th IUMRS International Conference on Advanced Materials, Yokohama, JAPAN, The Materials Research Society of Japan (2003).
    (D10-10-P34).
    Homepage

  28. S. Todoroki and S. Inoue: “Low loss optical coupling structure between two ends of silica glass optical fibers by inserting TeO$_2$ melt”, Proceedings of The 5th PacRim, Nagoya, JAPAN, The Ceramic Society of Japan (2003).
    (17-P-07).
    DigLib Homepage

  29. T. Konishi, T. Matsumoto, S. Suehara, S. Todoroki, S. Inoue, T. Kikkojin and A. Yasumori: “Reduction properties of rare earth in soda-borosilicate glasses”, Proceedings of The 5th PacRim, Nagoya, JAPAN, The Ceramic Society of Japan (2003).
    (17-O-03).
    Homepage

  30. S.-Z. Chu, S. Inoue, K. Wada, S. Todoroki, M. Isogai and A. Yasumori: “Fabrication of highly porous alumina nanostructures on glass by sputtering deposition and anodization”, Proceedings of The 5th PacRim, Nagoya, JAPAN, The Ceramic Society of Japan (2003).
    (12-O-09).
    Homepage

  31. S.-Z. Chu, S. Inoue, K. Wada, S. Todoroki, D. Li and H. Haneda: “Fabrication of versatile functional nanostructures on glass by sputtering deposition, al anodization, sol-gel process, and electrodeposition”, Proceedings of The 5th PacRim, Nagoya, JAPAN, The Ceramic Society of Japan (2003).
    (12-P-09).
    Homepage

  32. S. Suehara, T. Aizawa, S. Hishita, S. Todoroki, T. Konishi, S. Inoue, P. Thomas, A. P. Mirgorodsky, T. Merle-Mejean and J. C. Champarnaud-Mesjard: “Localized (hyper)polarizabilities of tellurite-related materials”, Proceedings of The 5th PacRim, Nagoya, JAPAN, The Ceramic Society of Japan (2003).
    (17-P-27).
    Homepage

  33. S. Todoroki and S. Inoue: “Combinatorial fluorescence lifetime measuring system for developing Er-doped transparent glass ceramics(invited)”, The 2nd U.S.-Japan Workshop on Combinatorial Materials and Science Technology, Winter Park, USA, p. 19 (2002).
    Homepage

  34. S. Inoue, S. Todoroki, K. Tomoya, T. Araki and T. Tsuchiya: “Combinatorial glass research system”, The 2nd U.S.-Japan Workshop on Combinatorial Materials and Science Technology, Winter Park, USA, p. 63 (2002).
    Homepage

  35. T. Konishi, T. Matsumoto, T. Araki, T. Tsuchiya, S. Todoroki and S. Inoue: “Optimization of host glass composition to make soda borosilicate glasses doped with reduced rare earth ions”, The 2nd U.S.-Japan Workshop on Combinatorial Materials and Science Technology, Winter Park, USA, p. 64 (2002).
    Homepage

  36. T. Konishi, T. Hondo, T. Araki, K. Nishio, T. Tsuchiya, T. Matsumoto, S. Todoroki and S. Inoue: “Glass formation and reddish coloring properties in zinc phosphotellurite glass”, Supercooled Liquids, Glass Transition, and Bulk Metallic Glasses (Eds. by A. Greer, T. Egami, A. Inoue and S. Ranganathan), Vol. 754 of Material Research Society Symposium Proceedings, Pennsylvania, USA, Material Research Society, pp. 465-470 (2002).
    OnlineJournal

  37. S. Todoroki, A. Nukui and S. Inoue: “Formation of optical coupling structure between silica glass waveguides and molten tellurite glass droplet”, International Symposium on Photonic Glass (ISPG 2002) (Ed. by C. Zhu), Vol. 5061 of SPIE Proceedings, USA, SPIE, pp. 50-58 (2003).
    (ISBN0-8194-4867-2).
    OnlineJournal DigLib  

  38. S. Todoroki, A. Nukui and S. Inoue: “Formation of optical coupling structure between two ends of silica glass optical fibers by inserting tellurite glass melt”, Austceram 2002 proceedings (Eds. by I. M. Low and D. N. Phillips), Perth, Australia, pp. 231-232 (2002).
    Homepage

  39. S.-Z. Chu, K. Wada, S. Inoue and S. Todoroki: “Fabrication and characteristics of nanostructures on glass substrate”, Frontiers Surface Engineering (FSE) 2001 Conference, Nagoya, JAPAN (2001).
    (C2-08).

  40. S.-Z. Chu, K. Wada, S. Inoue and S. Todoroki: “Fabrication of oxide nanostructures on glass by aluminum anodizing and sol-gel process”, Frontiers Surface Engineering (FSE) 2001 Conference, Nagoya, JAPAN (2001).
    (C2-09).

  41. A. Nukui, S. Todoroki, M. Miyata and Y. Bando: “In situ high-temperature X-ray observation of crystallization on fabrication of non-silica glass preform for optical device”, Proceedings of The 4th Int. Conf. on ECOMATERIALS, Hawaii, USA (2001).
    (C8-4).

  42. S.-Z. Chu, K. Wada, S. Inoue and S. Todoroki: “Fabrication of titania nanostructures on glass by aluminum anodizing and sol-gel process”, 2001 Joint International Meeting - the 200th Meeting of The Electrochemical Society, Inc. and the 52nd Annual Meeting of the International Society of Electrochemistry, San Francisco, USA (2001).
    (727).

  43. S. Todoroki, T. Matsumoto and S. Inoue: “Rapid and quantitative determination of crystallization tendency of zinc tellurite glass melt by using temperature-gradient furnace”, Combinatorial and Artificial Intelligence Methods in Material Science (Eds. by I. Takeuchi, J. M. Newsam, L. T. Wille, H. Koinuma and E. J. Amis), Vol. 700 of Material Research Society Symposium Proceedings, Pennsylvania, USA, Material Research Society, pp. 209-214 (2002).
    (S6.7, ISBN1-55899-636-2).
    OnlineJournal DigLib  

  44. S. Inoue, S. Todoroki, T. Matsumoto, T. Hondo, T. Araki and T. Tsuchiya: “Development of the combinatorial glass formation tester”, Combinatorial and Artificial Intelligence Methods in Material Science (Eds. by I. Takeuchi, J. M. Newsam, L. T. Wille, H. Koinuma and E. J. Amis), Vol. 700 of Material Research Society Symposium Proceedings, Pennsylvania, USA, Material Research Society, pp. 201-208 (2002).
    (S6.6, ISBN1-55899-636-2).
    OnlineJournal  

  45. S. Todoroki, S. Inoue and T. Matsumoto: “Combinatorial evaluation system for thermal properties of glass materials using a vertical furnace with temperature gradient”, 1st Japan-US Workshop on Combinatorial Materials and Science Technology, Hawaii, USA, p. 36 (2000).
    (S3-4).
    Homepage

  46. S. Inoue, S. Todoroki, T. Matsumoto, T. Hondo, T. Araki and Y. Watanabe: “Combinatorial methodologies for determination of glass forming region”, 1st Japan-US Workshop on Combinatorial Materials and Science Technology, Hawaii, USA, p. 35 (2000).
    (S3-3).
    Homepage

  47. T. Matsumoto, S. Inoue, S. Todoroki, T. Hondo, T. Araki and Y. Watanabe: “The apparatus for automatic batch melting in the crucibles”, 1st Japan-US Workshop on Combinatorial Materials and Science Technology, Hawaii, USA, p. 30 (2000).
    (P-4).
    Homepage

  48. S. Todoroki and A. Nukui: “Fracture-free condition during making glass preform for optical waveguide by introducing core melt into cladding glass tube”, Proceedings of The 4th Int. Conf. on ECOMATERIALS, Gifu, Japan, pp. 71-74 (1999).
    (B-4).

  49. S. Sakaguchi and S. Todoroki: “Rayleigh scattering of silica glass and silica fibers with heat treatment”, Proc. Int. Workshop on Structure and Functional Optical Properties of Silica and Silica-Related Glasses (Jpn. J. Appl. Phys., Vol. 37 Suppl. 37-1), Shizuoka, Japan, pp. 56-58 (1997).
    (ThuP.01).
    Download

  50. S. Todoroki and S. Sakaguchi: “Sodium magnesium silicate glasses for ultra low loss fibers”, Proceedings of the 22nd European Conf. on Optical Communication, Vol. 2, Oslo, Norway, pp. 241-244 (1996).
    (TuP.06).
    Download

  51. S. Sakaguchi, S. Todoroki and N. Rigout: “Optical properties in ternary germanate glasses”, VIII Int. Conf. on the Phys. of Non-Crystalline Solids, Turku, Finland, p. 3 (1995).
    (A03).

  52. K. Hirao, S. Todoroki and N. Soga: “A study of upconversion laser glasses and their molecular design simulations for fluorozirconate glass”, Boletin de la sociedad Espan ola de ceramica y vidrio (Proceedings of the XVI International Congress on Glass), Vol. 3, Madrid, Spain, pp. 121-126 (1992).

  53. K. Hirao, S. Todoroki, S. Tanabe and N. Soga: “Study of Er$^{3+}$-doped upconversion glass”, The Physics of Non-crystalline Solids, Proc. 7th. Int. Conf. Physics of Non-Crystalline Solids (Eds. by L. D. Pye, W. C. LaCourse and H. J. Stevens), Cambridge, UK, Taylor & Francis, London, UK, pp. 611-616 (1992).

  54. N. Soga, K. Hirao and S. Todoroki: “Prediction of glass forming tendency by molecular dynamics simulation”, Proc. 15th Int. Congr. Glass, Vol. 4, Leningrad, Soviet, pp. 52-57 (1989).