Deep UV lithography process in generic InP integration for arrayed waveguide gratings

Authors :: Sylwester Latkowski
Kevin A. Williams
Huub Ambrosius
LM Luc Augustin
E. Bitincka
J. Darracq
Jeroen Bolk
Ripalta Stabile
D. Marsan
Xaveer Leijtens
NanoLab@TU/e
Electro-Optical Communication
Photonic Integration
Electrical Engineering
Low Latency Interconnect Networks
Center for Quantum Materials and Technology Eindhoven
Source :: IEEE Photonics Technology Letters, 30(13), 1222-1225. Institute of Electrical and Electronics Engineers
Publication Year :: 2018
Publisher :: Institute of Electrical and Electronics Engineers, 2018.
Abstract: Low-excess-loss arrayed waveguide gratings are enabled by unique application of deep UV lithography in InP integrated photonics through reduced feature sizes and, more specifically, well-resolved inter-waveguide gap dimensions. Submicrometer wafer-flatness is shown to be required to achieve the critical dimension uniformity better than 10 nm on 3-in substrates. Arrayed waveguide grating devices were fabricated and the effect of inter-waveguide gap scaling on the excess losses was measured and compared to simulations. Excess losses down to 0.15 dB were demonstrated to be lower than predicted with the 2-D simulations. The tapering of the etch depth inside the gaps due to the lag effect of the etch process may explain the improvements.

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