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
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