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Proceedings Paper

Hybrid integration technologies for a single-mode array transceiver, including the use of polymer waveguides of benzocyclobutene
Author(s): Gunnar Arvidsson; Lennart Backlin; Magnus Olson; Andrew P. Scholes; Joacim Haglund; Magnus Svensson; Goran F. Palmskog; Torsten Augustsson; Paul Eriksen; Mats Granberg; Jacob Larsson; Pontus Lundstrom
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Paper Abstract

Access networks represent a bottle neck in the present communication networks. The introduction of optical single mode technology into the access networks (Fiber TO THE HOME, FTTH; Fiber To The Antenna, FTTA etc.), would be highly desirable. In order for this to occur a drastic reduction of the cost for key optoelectronic components such as transceivers is needed. We report on and discuss different key technologies crucial for the production of low cost optical single mode components. In particular a technology demonstrator in the form of an array transceiver module has been designed and fabricated, thereby demonstrating the process compatibility between a number of low-cost technologies.

Paper Details

Date Published: 11 March 2003
PDF: 12 pages
Proc. SPIE 4947, Laser Diodes, Optoelectronic Devices, and Heterogenous Integration, (11 March 2003); doi: 10.1117/12.471991
Show Author Affiliations
Gunnar Arvidsson, Acreo AB (Sweden)
Lennart Backlin, Acreo AB (Sweden)
Magnus Olson, Acreo AB (Sweden)
Andrew P. Scholes, Acreo AB (Sweden)
Joacim Haglund, Acreo AB (Sweden)
Magnus Svensson, Acreo AB (Sweden)
Goran F. Palmskog, Ericsson Optoelectronics AB (Sweden)
Torsten Augustsson, Ericsson Optoelectronics AB (Sweden)
Paul Eriksen, Ericsson Optoelectronics AB (Sweden)
Mats Granberg, Ericsson Optoelectronics AB (Sweden)
Jacob Larsson, Ericsson Optoelectronics AB (Sweden)
Pontus Lundstrom, Ericsson Optoelectronics AB (Sweden)


Published in SPIE Proceedings Vol. 4947:
Laser Diodes, Optoelectronic Devices, and Heterogenous Integration

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