輔仁大學圖書資訊學系Department of Library and Information Science, Fu-Jen Catholic University黃元鶴Huang, Yuan-HoYuan-HoHuang2010-06-232018-05-302010-06-232018-05-302009-12http://ntur.lib.ntu.edu.tw//handle/246246/185937本研究由巨磁阻之科學文獻與專利文件來觀察科學與技術間互動，樣本資料包括1030件專利引用之1603篇非專利參考文獻，以及3287篇科學文獻所引用之160件次的專利進行分析。結果顯示科學文獻僅佔所有技術文件之參考文獻的10%，而僅約4%的科學文獻曾引用代表技術的專利文件。時間差四年內的科學文獻被專利文件引用比率較高，然部份時間差十年的專利仍被科學文獻引用。物理、工程、化學與電腦等主題是較常被專利引用的主題，而半導體裝置、磁體或電感及變壓器相關的專利則較常被科學文獻所引用。This study focused on the interaction between science and technology of Giant Magnetoresistance (GMR) from both scientific literatures and patent documents. The sample data included 1603 nonpatent references (NPRs) from 1030 patents and 160 patent documents cited by 3287 scientific literatures. The result shows that the scientific literature amounts to 10 percent of all references cited by technical documents. On the other hand, only 4 percent of the scientific literature had cited the patent documents. The time lags between patent application and paper publication from the NPRs are mostly within 4 years. However, some patents which have been issued 10 years ago were still cited by scientific literatures. Subjects including physics, engineering, chemistry and computer are mostly cited by GMR patent documents, while technologies related to semiconductor devices, magnets inductances and transformers are mostly cited by GMR scientific literatures.1797952 bytesapplication/pdfen-US非專利參考文獻引文分析科學連結技術連結Non-patent referencesCitation analysisScience LinkageTechnology Linkagejournal articledoi: 10.6182/jlis.2009.7(1.2).053http://ntur.lib.ntu.edu.tw/bitstream/246246/185937/1/v7-12-3.pdf