Lasing in \(\mathrm{Si}_3\mathrm{N}_4\)-organic hybrid (SiNOH) waveguides
Lasers that operate in the visible wavelength range and can be easily integrated on a chip together with photonic integrated circuits are of particular interest for biophotonic applications. We present a new class of laser sources that emit at 600 nm wavelength and can be efficiently integrated on t...
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| Veröffentlicht in: | arXiv.org 2019-08 |
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| creator | Kohler, Daria Allegro, Isabel Sentayehu Fetene Wondimu Hahn, Lothar Freude, Wolfgang Koos, Christian |
| description | Lasers that operate in the visible wavelength range and can be easily integrated on a chip together with photonic integrated circuits are of particular interest for biophotonic applications. We present a new class of laser sources that emit at 600 nm wavelength and can be efficiently integrated on the \(\mathrm{Si}_3\mathrm{N}_4\) platform using low-cost fabrication techniques. The \(\mathrm{Si}_3\mathrm{N}_4\)-organic hybrid lasers are optically pumped from top without the need of a precise alignment. We investigate different laser geometries based on spiral shaped ring resonators and distributed feedback resonators. We discuss the laser properties with a focus on their application in the field of bioscience. |
| doi_str_mv | 10.48550/arxiv.1909.00020 |
| format | Article |
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| subjects | Integrated circuits Lasers Photonics Resonators Waveguides |
| title | Lasing in \(\mathrm{Si}_3\mathrm{N}_4\)-organic hybrid (SiNOH) waveguides |
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