Mid-infrared octave spanning supercontinuum generation to 8.5 μm in silicon-germanium waveguides
journal contribution
posted on 2024-11-02, 06:59 authored by Milan Sinobad, Christelle Monat, Barry Luther-Davies, Pan Ma, Stephen Madden, David Moss, Arnan MitchellArnan Mitchell, David Allioux, R Orobtchouk, Salim Boutami, J.M. Hartmann, J Fedeli, Christian GrilletEfficient on-chip molecule and bio-agent detection can be achieved by accessing strong molecular absorption lines in the mid-infrared, but it requires high output power broadband mid-IR sources. Here, we report supercontinuum generation in an air-clad Si0.6Ge0.4/Si waveguide that emits a broad spectrum spanning from 3.0 mu m to 8.5 mu m. These waveguides have anomalous dispersion and low propagation loss (<0.4 dB/cm) in the mid-IR, which leads to a supercontinuum output with a high average power of more than 10 mW on-chip. The realization of broadband mid-IR sources with high spectral brightness makes the SiGe-on-Si platform promising for a wide range of applications.
Funding
ARC Centre of Excellence for Ultrahigh Bandwidth Devices for Optical Systems
Australian Research Council
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