{"total_count":15,"results":[{"id":105355,"original_title":"Rapid and quantitative determination of crystallization tendency of zinc tellurite glass melt by using temperature-gradient furnace","title_alternative":null,"title_transcription":null,"title_alternative_transcription":null,"pub_date":"2002","statement_of_responsibility":null,"creators":[{"full_name":"TODOROKI Shin-ichi"},{"full_name":"Matsumoto T."},{"full_name":"Inoue S."}],"contributors":[],"publishers":[],"publication_place":null,"extent":null,"dimensions":null,"identifiers":[],"subjects":[],"classfifications":[],"access_address":"https://hdl.handle.net/20.500.11932/33016","items":[],"created_at":"2015-12-15T21:29:29.640+09:00","updated_at":"2025-07-14T15:47:28.305+09:00"},{"id":105335,"original_title":"Formation of optical coupling structure between silica glass waveguides and molten tellurite glass droplet","title_alternative":null,"title_transcription":null,"title_alternative_transcription":null,"pub_date":null,"statement_of_responsibility":null,"creators":[{"full_name":"Todoroki S."},{"full_name":"Nukui A."},{"full_name":"Inoue S."}],"contributors":[],"publishers":[],"publication_place":null,"extent":null,"dimensions":null,"identifiers":[],"subjects":[{"subject_heading_type":"unknown","term":"optical fiber"},{"subject_heading_type":"unknown","term":"tellurite glass"},{"subject_heading_type":"unknown","term":"insertion loss"},{"subject_heading_type":"unknown","term":"thermal expansion coefficient"},{"subject_heading_type":"unknown","term":"optical fiber"},{"subject_heading_type":"unknown","term":"tellurite glass"},{"subject_heading_type":"unknown","term":"insertion loss"},{"subject_heading_type":"unknown","term":"thermal expansion coefficient"},{"subject_heading_type":"unknown","term":"optical fiber"},{"subject_heading_type":"unknown","term":"tellurite glass"},{"subject_heading_type":"unknown","term":"insertion loss"},{"subject_heading_type":"unknown","term":"thermal expansion coefficient"}],"classfifications":[],"access_address":"https://hdl.handle.net/20.500.11932/28398","items":[],"created_at":"2015-12-15T21:29:11.464+09:00","updated_at":"2025-07-14T15:47:27.948+09:00"},{"id":103962,"original_title":"Combinatorial evaluation system for thermal properties of glass materials using a vertical furnace with temperature gradient","title_alternative":null,"title_transcription":null,"title_alternative_transcription":null,"pub_date":"2002-04-28","statement_of_responsibility":null,"creators":[{"full_name":"TODOROKI Shin-ichi"},{"full_name":"Inoue S."},{"full_name":"Matsumoto T."}],"contributors":[],"publishers":[],"publication_place":null,"extent":null,"dimensions":null,"identifiers":[],"subjects":[{"subject_heading_type":"unknown","term":"glass"},{"subject_heading_type":"unknown","term":"crystallization tendency"},{"subject_heading_type":"unknown","term":"critical cooling rate"},{"subject_heading_type":"unknown","term":"time-temperature-transfer diagram"},{"subject_heading_type":"unknown","term":"glass"},{"subject_heading_type":"unknown","term":"crystallization tendency"},{"subject_heading_type":"unknown","term":"critical cooling rate"},{"subject_heading_type":"unknown","term":"time-temperature-transfer diagram"},{"subject_heading_type":"unknown","term":"glass"},{"subject_heading_type":"unknown","term":"crystallization tendency"},{"subject_heading_type":"unknown","term":"critical cooling rate"},{"subject_heading_type":"unknown","term":"time-temperature-transfer diagram"}],"classfifications":[],"access_address":"https://hdl.handle.net/20.500.11932/28377","items":[],"created_at":"2015-05-28T18:09:04.144+09:00","updated_at":"2023-07-31T14:12:11.448+09:00"},{"id":103749,"original_title":"Formation of optical coupling structure between silica glass waveguides and molten tellurite glass droplet","title_alternative":null,"title_transcription":null,"title_alternative_transcription":null,"pub_date":null,"statement_of_responsibility":null,"creators":[{"full_name":"TODOROKI Shin-ichi"},{"full_name":"Nukui A."},{"full_name":"Inoue S."}],"contributors":[{"full_name":"Zhu Congshan"}],"publishers":[],"publication_place":null,"extent":null,"dimensions":null,"identifiers":[],"subjects":[{"subject_heading_type":"unknown","term":"optical fiber"},{"subject_heading_type":"unknown","term":"tellurite glass"},{"subject_heading_type":"unknown","term":"insertion loss"},{"subject_heading_type":"unknown","term":"thermal expansion coefficient"},{"subject_heading_type":"unknown","term":"optical fiber"},{"subject_heading_type":"unknown","term":"tellurite glass"},{"subject_heading_type":"unknown","term":"insertion loss"},{"subject_heading_type":"unknown","term":"thermal expansion coefficient"},{"subject_heading_type":"unknown","term":"optical fiber"},{"subject_heading_type":"unknown","term":"tellurite glass"},{"subject_heading_type":"unknown","term":"insertion loss"},{"subject_heading_type":"unknown","term":"thermal expansion coefficient"},{"subject_heading_type":"unknown","term":"optical fiber"},{"subject_heading_type":"unknown","term":"tellurite glass"},{"subject_heading_type":"unknown","term":"insertion loss"},{"subject_heading_type":"unknown","term":"thermal expansion coefficient"}],"classfifications":[],"access_address":"https://hdl.handle.net/20.500.11932/101921","items":[],"created_at":"2015-05-28T18:07:12.239+09:00","updated_at":"2023-07-31T14:42:08.105+09:00"},{"id":103663,"original_title":"Fabrication of ordered Ni nanocones using a porous anodic alumina template\nElectrochemistry Communications","title_alternative":null,"title_transcription":null,"title_alternative_transcription":null,"pub_date":"2008-05","statement_of_responsibility":null,"creators":[{"full_name":"Yamauchi Yusuke"},{"full_name":"Nagaura T"},{"full_name":"Takeuchi F"},{"full_name":"Yamauchi Y"},{"full_name":"Wada K"},{"full_name":"Inoue S"}],"contributors":[],"publishers":[],"publication_place":null,"extent":null,"dimensions":null,"identifiers":[],"subjects":[],"classfifications":[],"access_address":"https://hdl.handle.net/20.500.11932/141884","items":[],"created_at":"2015-05-28T18:06:22.599+09:00","updated_at":"2025-07-14T15:46:56.879+09:00"}]}