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Photonic hybrid assembly through flexible waveguides

Authors :
Wörhoff, Kerstin (author)
Prak, Albert (author)
Postma, F. (author)
Leinse, A (author)
Wu, K. (author)
Peters, T.J. (author)
Tichem, M. (author)
Amaning-Appiah, B. (author)
Renukappa, V. (author)
Vollrath, G. (author)
Balcells-Ventura, J. (author)
Uhlig, P. (author)
Seyfried, M. (author)
Rose, D. (author)
Santos, Raquel (author)
Leijtens, XJM (author)
Flintham, B. (author)
Wale, M. (author)
Robbins, D. (author)
Wörhoff, Kerstin (author)
Prak, Albert (author)
Postma, F. (author)
Leinse, A (author)
Wu, K. (author)
Peters, T.J. (author)
Tichem, M. (author)
Amaning-Appiah, B. (author)
Renukappa, V. (author)
Vollrath, G. (author)
Balcells-Ventura, J. (author)
Uhlig, P. (author)
Seyfried, M. (author)
Rose, D. (author)
Santos, Raquel (author)
Leijtens, XJM (author)
Flintham, B. (author)
Wale, M. (author)
Robbins, D. (author)
Publication Year :
2016

Abstract

Fully automated, high precision, cost-effective assembly technology for photonic packages remains one of the main challenges in photonic component manufacturing. Next to the cost aspect the most demanding assembly task for multiport photonic integrated circuits (PICs) is the high-precision (±0.1 μm) alignment and fixing required for optical I/O in InP PICs, even with waveguide spot size conversion. In a European research initiative - PHASTFlex - we develop and investigate an innovative, novel assembly concept, in which the waveguides in a matching TriPleX interposer PIC are released during fabrication to make them movable. After assembly of both chips by flip-chip bonding on a common carrier, TriPleX based actuators and clamping functions position and fix the flexible waveguides with the required accuracy.<br />Micro and Nano Engineering

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1008794951
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1117.12.2227814