manifestation_id	original_title	title_alternative	title_transcription	statement_of_responsibility	manifestation_identifier	creator	contributor	publisher	date_of_publication	pub_date	year_of_publication	publication_place	manifestation_created_at	manifestation_updated_at	carrier_type	content_type	frequency	language	isbn	issn	doi	jpno	ncid	lccn	iss_itemno	volume_number	volume_number_string	edition	edition_string	issue_number	issue_number_string	serial_number	extent	start_page	end_page	dimensions	height	width	depth	manifestation_price	access_address	manifestation_required_role	abstract	description	identifier:unknown	identifier:nbn	identifier:isbn10	identifier:iss_itemno	identifier:online_isbn	identifier:print_isbn	identifier:print_issn	identifier:online_issn	identifier:escidoc	identifier:nims	series_statement_id	series_statement_original_title	series_statement_title_subseries	series_statement_title_subseries_transcription	series_statement_title_transcription	series_statement_creator	series_statement_volume_number	series_statement_series_master	series_statement_root_manifestation_id	series_statement_manifestation_id	series_statement_position	series_statement_note	series_statement_created_at	series_statement_updated_at	subject:ndlsh	subject:unknown	subject:bsh	classification:ndc8	classification:ndc9	classification:udc	item_id	item_identifier	binding_item_identifier	call_number	library	shelf	item_note	accepted_at	acquired_at	item_created_at	item_updated_at
105432	光ファイバーの自壊連鎖現象〜ファイバーフューズ〜					""	""	""	2008-10-27 00:00:00 +0900	2008-10-27	2008		2015-12-15 21:31:01 +0900	2023-07-31 14:44:41 +0900	online_resource	text	unknown	Japanese	""	""														1188	1191						https://hdl.handle.net/20.500.11932/39033	Guest	"ファイバフューズ現象の発見から今に至る歴史的背景、発生のメカニズム、生成する空孔列が特異な形状となる理由を、筆者の最新の研究に触れつつ簡潔にまとめた。
"		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	fiber fuse//optical fiber//fiber fuse//optical fiber//fiber fuse//optical fiber	""	""	""	""	100443				web	web				2023-07-31 14:44:41 +0900	2023-07-31 14:44:41 +0900
105427	Observation of Blowing Out in Low Loss Passive Optical Fuse Formed in Silica Glass Optical Fiber Circuit					TODOROKI Shin-ichi//Inoue S.	""	""	2004-05-21 00:00:00 +0900	2004-05-21	2004		2015-12-15 21:30:48 +0900	2023-07-31 14:27:46 +0900	online_resource	text	unknown	English	""	""														0	0						https://hdl.handle.net/20.500.11932/28361	Guest	Low loss (less than 1 dB) passive optical fuses were realized by inserting 50-um-thick TeO2 glass layer into a single-mode silica glass fiber circuit with carbon coating.  On the basis of real-time observation of their fusing action, the mechanism of losing its transparency is discussed.  The observed loss drop is found to be an overlap of decoupling of the circuit and transient light flux from the burned coating.  The critical input power to blow out is expected to be raised by eliminating its insertion loss.		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fiber//tellurium oxide glass//carbon//optical fuse//hybrid device	""	""	""	""	97295				web	web				2023-07-31 14:27:46 +0900	2023-07-31 14:27:46 +0900
105425	Optical fuse by carbon-coated TeO2 glass segment inserted in silica glass optical fiber circuit					TODOROKI Shin-ichi//Inoue S.	""	""	2004-01-23 00:00:00 +0900	2004-01-23	2004		2015-12-15 21:30:45 +0900	2023-07-31 14:19:20 +0900	online_resource	text	unknown	English	""	""														0	0						https://hdl.handle.net/20.500.11932/28366	Guest	Excessive-light-induced melt down was observed in a carbon-coated TeO2 glass segment formed between a pair of optical fiber end-faces.  This structure was made by splicing single-mode silica fibers through TeO2 glass melt to form a necked bridge, which was coated with carbon-containing paint after quenching it.  Optical fusing action was induced by 0.3--1.5 W of CW light (1.54 um) and its output power dropped by 12 dB on average.  Optical decoupling seems to be induced by  not only deformation but also crystallization of the glass bridge.  Its quite a high insertion loss of about 2dB can be reduced by introducing some refractive index modulations into the present structure.		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fiber//tellurium oxide glass//carbon//optical fuse//hybrid device	""	""	""	""	95727				web	web				2023-07-31 14:19:20 +0900	2023-07-31 14:19:20 +0900
105418	Optical fuse made of silica glass optical fibers spliced through low-melting glass with carbon-coating					TODOROKI Shin-ichi//Inoue S.	""	""	2004-09-27 00:00:00 +0900	2004-09-27	2004		2015-12-15 21:30:39 +0900	2023-07-31 14:18:29 +0900	online_resource	text	unknown	English	""	""																					https://hdl.handle.net/20.500.11932/28389	Guest	"Light-induced breakdown of low-melting glass with thickness of 50 um is demonstrated, which was coated with carbon paint and formed between two end of single-mode silica glass optical fibers.  This phenomenon is useful to make irreversible optical limiting devices known as optical fuse.  The present structure breaks by 1.2-5.3 W of incident light (~1.5 um), exhibits low insertion loss of less than 1 dB, and is formed by dipping-up a small amount of hot glass melt between fibers, aligning the fibers and quenching them.  The relation between shape of the captured melt and its insertion loss is discussed.
"		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fuse//optical fiber//low melting glass//telluria glass//light-induced deformation	""	""	""	""	95567				web	web				2023-07-31 14:18:29 +0900	2023-07-31 14:18:29 +0900
105417	"Formation of optical coupling structure between two ends of silica 
glass optical fibers by inserting tellurite glass melt"					TODOROKI Shin-ichi//Nukui A.//Inoue S.	""	""	2002-05-01 00:00:00 +0900	2002-05-01	2002		2015-12-15 21:30:37 +0900	2023-07-31 14:41:14 +0900	online_resource	text	unknown	English	""	""														476	478						https://hdl.handle.net/20.500.11932/28375	Guest	" Several nano liters of tellurite glass melt was inserted
and quenched between two ends of silica glass optical fibers to form a
optical coupling structure, whose length was several hundred um.
Dispite the large gap of thermal expansion coefficient between these
glass materials, neither fracture nor bubbles were observed, which
usually lead to a large optical propagation loss.  The insertion loss
was less than 10 dB, which was mainly due to the lack of an optical
waveguide structure in the tellurite glass segment.  Further loss
decrease is expected to be possible by introducing a refractive index
modulation. "		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fiber//tellurite glass//thermal expansion//optical fiber//tellurite glass//thermal expansion//optical fiber//tellurite glass//thermal expansion	""	""	""	""	99798				web	web				2023-07-31 14:41:14 +0900	2023-07-31 14:41:14 +0900
105416	"Heat-induced breakage of an optical circuit at a TeO2
glass bridge linking silica glass fibers"					TODOROKI, Shin-ichi	""	""	2006-08-01 00:00:00 +0900	2006-08-01	2006		2015-12-15 21:30:36 +0900	2025-07-14 15:47:29 +0900	online_resource	text	unknown	English	""	""														709	712						https://hdl.handle.net/20.500.11932/28314	Guest	"The irreversible transformation of a tellurum oxide glass layer
inserted between two ends of two silica glass optical fibers was
monitored via the intensity of a light passed through the circuit.  This
structure is used for a heat-induced optical fuse after the soft glass
layer has been coated with a light absorber.  Heat-induced breakage
occurred when the glass crystallized or flowed in the presence of a
shearing stress.  Without the stress, the optical link was maintained
through the glass melt but suddenly broke due to the crystallization.
On the other hand, the stress deformed the glass bridge and broke the
optical link less than 0.4 sec.  Thus, the shearing stress at the
splicing point helps the device respond immediately and reliably."		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fiber//telluria glass//plastic flow//optical fuse	""	""	""	""	104446				web	web				2025-07-14 15:02:31 +0900	2025-07-14 15:47:29 +0900
105406	"Low loss optical coupling structure between two ends of
silica glass optical fibers by inserting TeO2 melt"					TODOROKI Shin-ichi//Inoue S.	""	""	2003-10-15 00:00:00 +0900	2003-10-15	2003		2015-12-15 21:30:25 +0900	2023-07-31 14:40:53 +0900	online_resource	text	unknown	English	""	""														237	240						https://hdl.handle.net/20.500.11932/28372	Guest	"Less than 1.5dB of insertion loss was realized in an optical coupling
structure in which two TEC (Thermal-diffusion Expanded Core) fibers are
spliced via quenched TeO2 melt whose length was 0.5mm.  The quenched
melt seems to be free of precipitates because they would bring about
larger loss if existed.  The loss due to imperfect optical coupling
between the fibers is estimated to be about 1 dB, which can be reduced
by introducing some refractive index modulation into the present
structure.
"		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fiber//tellurite glass	""	""	""	""	99731				web	web				2023-07-31 14:40:53 +0900	2023-07-31 14:40:53 +0900
105383	シリカガラスファイバへの低融点ガラスの融着とその光学的評価					TODOROKI Shin-ichi//貫井 昭彦//井上 悟	""	""	2001-08-24 00:00:00 +0900	2001-08-24	2001		2015-12-15 21:30:00 +0900	2023-07-31 14:51:20 +0900	online_resource	text	unknown	Japanese	""	""																					https://hdl.handle.net/20.500.11932/28497	Guest	"テルライトガラス融液を2本のシリカガラス製光ファイバの端面間に固着して得
た素子の光透過・反射特性を調べた。前者の熱膨張率が2桁大きいにもかかわら
ず、冷却時の収縮による破損や気泡の無い良好な構造を得ることができた。この
素子はテルライトガラス部において導波構造を持たないため、光ファイバ間の光
学的結合度が小さくなることは避けられないが、光導波路への簡便な接合(成形・
研磨不用)を提供する点で有用である。"		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	splicing//optical fiber//tellurite glass//splicing//optical fiber//tellurite glass//splicing//optical fiber//tellurite glass	""	""	""	""	101685				web	web				2023-07-31 14:51:20 +0900	2023-07-31 14:51:20 +0900
103981	孔のあいた光ファイバ明暗二題―ホーリーファイバとファイバフューズ					""	""	""	2008-10-10 00:00:00 +0900	2008-10-10	2008		2015-05-28 18:09:14 +0900	2023-07-31 14:50:15 +0900	online_resource	text	unknown	Japanese	""	""														0	0						https://hdl.handle.net/20.500.11932/39178	Guest	通信用光ファイバに関する話題として、孔を空けて特異な物性を引き出すホーリーファイバと、光による破壊の連鎖で孔が空いていくファイバフューズを紹介する。波長変換素子や超広帯域光源への応用を目指した、非線型光学係数の大きい材料を使ったフォトニック結晶光ファイバの最近の動向を概観する。また、20年前に発見されたファイバフューズ現象を最新の超高速カメラで撮影し、併せて空孔生成メカニズムを提案した筆者の仕事を紹介する。		""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fiber//non-liner fiber//holey fiber//fiber fuse//optical fiber//non-liner fiber//holey fiber//fiber fuse//optical fiber//non-liner fiber//holey fiber//fiber fuse	""	""	""	""	101483				web	web				2023-07-31 14:50:15 +0900	2023-07-31 14:50:15 +0900
103915	ACTIVE SOFT GLASS meets PASSIVE OPTICAL FIBERS					""	""	""	2003-03-17 00:00:00 +0900	2003-03-17	2003		2015-05-28 18:08:38 +0900	2023-07-31 14:43:30 +0900	online_resource	text	unknown	Japanese	""	""																					https://hdl.handle.net/20.500.11932/33029	Guest			""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	""	optical fiber//tellurite glass//optical fiber//tellurite glass//optical fiber//tellurite glass	""	""	""	""	100228				web	web				2023-07-31 14:43:30 +0900	2023-07-31 14:43:30 +0900