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Optical pump-rejection filter based on silicon sub-wavelength engineered photonic structures

Optics 2017-05-30 v1 Quantum Physics

Abstract

The high index contrast of the silicon-on-insulator (SOI) platform allows the realization of ultra-compact photonic circuits. However, this high contrast hinders the implementation of narrow-band Bragg filters. These typically require corrugations widths of a few nanometers or double-etch geometries, hampering device fabrication. Here we report, for the first time, on the realization of SOI Bragg filters based on sub-wavelength index engineering in a differential corrugation width configuration. The proposed double periodicity structure allows narrow-band rejection with a single etch step and relaxed width constraints. Based on this concept, we experimentally demonstrate a single-etch, 220nm\mathbf{220\,nm} thick, Si Bragg filter featuring a corrugation width of 150nm\mathbf{150\,nm}, a rejection bandwidth of 1.1nm\mathbf{1.1\,nm} and an extinction ratio exceeding 40dB\mathbf{40\,dB}. This represents a ten-fold width increase compared to conventional single-periodicity, single-etch counterparts with similar bandwidths.

Keywords

Cite

@article{arxiv.1705.10237,
  title  = {Optical pump-rejection filter based on silicon sub-wavelength engineered photonic structures},
  author = {Diego Pérez-Galacho and Carlos Alonso-Ramos and Florent Mazeas and Xavier Le Roux and Dorian Oser and Weiwei Zhang and Delphine Marris-Morini and Laurent Labonté and Sébastien Tanzilli and Éric Cassan and Laurent Vivien},
  journal= {arXiv preprint arXiv:1705.10237},
  year   = {2017}
}
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