DocumentCode
1246142
Title
Thin-film devices fabricated with benzocyclobutene adhesive wafer bonding
Author
Christiaens, Ilse ; Roelkens, Günther ; Mesel, Kurt De ; Thourhout, Dries Van ; Baets, Roel
Author_Institution
Photonics Res. Group, Ghent Univ.-IMEC, Gent, Belgium
Volume
23
Issue
2
fYear
2005
Firstpage
517
Lastpage
523
Abstract
In this paper, we present and elaborate on die to wafer bonding technology with benzocyclobutene (BCB). This technology allows to fabricate a variety of reliable waferbonded components in a fairly simple way using only standard cleanroom equipment. We demonstrate the fabrication of passive devices such as microring resonators, as well as active components such as lasers and LEDs. We show good performance of these devices by presenting measurements of their characteristics. Furthermore, these devices were subjected to damp-heat testing, demonstrating the good quality of the BCB-bonding procedure. Finally, due to the low thermal conductivity of BCB, thermal management needs some attention. We present an analysis of the thermal problem and suggest a possible solution.
Keywords
adhesive bonding; integrated optoelectronics; laser cavity resonators; light emitting diodes; microassembling; microcavities; optical fabrication; polymers; reliability; semiconductor lasers; thermal conductivity; thermal management (packaging); thin film devices; wafer bonding; BCB-bonding; adhesive wafer bonding; benzocyclobutene; damp-heat testing; device fabrication; die-to-wafer bonding technology; laser diode; low thermal conductivity; microring resonators; passive device fabrication; polymer BCB; reliable waferbonded components; standard cleanroom equipment; thermal management; thin-film LED; thin-film devices; thin-film lasers; Chemicals; Optoelectronic devices; Polymers; Temperature; Testing; Thermal conductivity; Thermal management; Thin film devices; Transistors; Wafer bonding; Benzocyclobutene (BCB); bonding; damp-heat testing; microring resonators; thermal analysis; thin-film LED; thin-film laser;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.2004.841783
Filename
1402528
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