Journal
ACS PHOTONICS
Volume 4, Issue 10, Pages 2537-2543Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsphotonics.7b00805
Keywords
nanowire lasers; monolithic III/V integration on Si; waveguide coupling; photoluminescence spectroscopy; Si photonics
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Funding
- Deutsche Forschungsgemeinschaft (DFG) [FI 947/4-1 KO 4005/7-1]
- Nanosystems Initiative Munich (NIM)
- International Graduate School of Science and Engineering (TUM-IGSSE)
- IBM
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Semiconductor nanowire (NW) lasers are nano-scale coherent light sources that exhibit a small footprint, low-threshold lasing characteristics, and properties suitable for monolithic and site-selective integration onto Si photonic circuits. An important milestone on the way toward novel on chip photonic functionalities, such as injection locking of laser emission and all-optical switching mediated by coherent optical coupling and feedback, is the integration of individual, deterministically addressable NW lasers on Si waveguides with efficient coupling and mode propagation in the underlying photonic circuit. Here, we demonstrate the monolithic integration of single GaAs-based NW lasers directly onto lithographically defined Si ridge waveguides (WG) with low threshold power densities of 19.8 mu J/cm(2) when optically excited. The lasing mode of individual NW lasers is shown to couple efficiently into propagating modes of the underlying orthogonal Si WG, preserving the lasing characteristics during mode propagation in the WG in good agreement with Finite-Difference Time-Domain (FDTD) simulations. Using a WG structure with a series of mask openings along the central mode propagation axis, we further illustrate the out-coupling properties of both spontaneous and stimulated emission and demonstrate propagation of the lasing mode over distances >60 mu m, despite absorption in the silicon dominating the propagation losses.
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