Photonic-integrated circuits with non-planar topologies realized by 3D-printed waveguide overpasses

Photonic-integrated circuits with non-planar topologies realized by 3D-printed waveguide overpasses

Complex photonic-integrated circuits (PIC) may have strongly non-planar topologies that require waveguide crossings (WGX) when realized in single-layer integration platforms. The number of WGX increases rapidly with the complexity of the circuit, in particular when it comes to highly interconnected...

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Veröffentlicht in:Optics express 2019-06, Vol.27 (12), p.17402-17425
Hauptverfasser: Nesic, Aleksandar, Blaicher, Matthias, Hoose, Tobias, Hofmann, Andreas, Lauermann, Matthias, Kutuvantavida, Yasar, Nöllenburg, Martin, Randel, Sebastian, Freude, Wolfgang, Koos, Christian
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container_end_page 17425
container_issue 12
container_start_page 17402
container_title Optics express
container_volume 27
creator Nesic, Aleksandar
Blaicher, Matthias
Hoose, Tobias
Hofmann, Andreas
Lauermann, Matthias
Kutuvantavida, Yasar
Nöllenburg, Martin
Randel, Sebastian
Freude, Wolfgang
Koos, Christian
description Complex photonic-integrated circuits (PIC) may have strongly non-planar topologies that require waveguide crossings (WGX) when realized in single-layer integration platforms. The number of WGX increases rapidly with the complexity of the circuit, in particular when it comes to highly interconnected optical switch topologies. Here, we present a concept for WGX-free PIC that relies on 3D-printed freeform waveguide overpasses (WOP). We experimentally demonstrate the viability of our approach using the example of a 4 × 4 switch-and-select (SAS) circuit realized on the silicon photonic platform. We further present a comprehensive graph-theoretical analysis of different n × n SAS circuit topologies. We find that for increasing port counts n of the SAS circuit, the number of WGX increases with n , whereas the number of WOP increases only in proportion to n .
doi_str_mv 10.1364/OE.27.017402
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title Photonic-integrated circuits with non-planar topologies realized by 3D-printed waveguide overpasses
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