Laser Direct Writing of Single-Mode Polysiloxane Optical Waveguides and Devices

Eugen Zgraggen; Ibrahim Murat Soganci; Folkert Horst; Antonio La Porta; Roger Dangel; Bert Jan Offrein; Steven A. Snow; Jeanette K. Young; Brandon W. Swatowski; Chad M. Amb; Olivier Scholder; Rolf Broennimann; Urs Sennhauser; Gian-Luca Bona

Journal of Lightwave Technology
Vol. 32,
Issue 17,
pp. 3036-3042
(2014)

Laser Direct Writing of Single-Mode Polysiloxane Optical Waveguides and Devices

Eugen Zgraggen, Ibrahim Murat Soganci, Folkert Horst, Antonio La Porta, Roger Dangel, Bert Jan Offrein, Steven A. Snow, Jeanette K. Young, Brandon W. Swatowski, Chad M. Amb, Olivier Scholder, Rolf Broennimann, Urs Sennhauser, and Gian-Luca Bona

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Eugen Zgraggen, Ibrahim Murat Soganci, Folkert Horst, Antonio La Porta, Roger Dangel, Bert Jan Offrein, Steven A. Snow, Jeanette K. Young, Brandon W. Swatowski, Chad M. Amb, Olivier Scholder, Rolf Broennimann, Urs Sennhauser, and Gian-Luca Bona, "Laser Direct Writing of Single-Mode Polysiloxane Optical Waveguides and Devices," J. Lightwave Technol. 32, 3036-3042 (2014)

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Abstract

Using a custom-built laser direct writing system, single-mode polymer optical waveguides, and devices for board-level optical interconnects were fabricated. A novel photopatternable polysiloxane material was developed that combines low-loss, simple, and large-area processability, and reliability during manufacturing and system operation. The polysiloxane waveguides were designed with quadratic cross sections of 5.5 $\times$ 5.5 µm² and a refractive index contrast of 0.0086 between core and cladding polymer for single-mode operation at the wavelength of 1.3 µm. A straight waveguide propagation loss of 0.28 dB/cm was achieved. A wide range of passive optical devices, including Y-splitters, directional couplers, and Mach–Zehnder interferometers were successfully fabricated and characterized. The results prove that the presented combination of material and process technology is a viable implementation for short distance board-level optical links.

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Journal of Lightwave Technology