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Silicon-organic hybrid (SOH) integration for low-power and high-speed signal generation

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Center for nano- and biophotonics (NB-Photonics)
Abstract
Silicon-organic hybrid (SOH) integration combines silicon photonic devices with electro-optic organic cladding materials. We demonstrate that SOH modulators can be used to generate advanced modulation formats with high symbol rates at low operating voltages and low energy consumption. Moreover, we show that the SOH approach can be extended to plasmonic waveguide structures, leading to the plasmonic-organic hybrid (POH) concept.
Keywords
integrated modulators, Silicon Photonics, organic electro-optic materials, silicon-organic hybrid (SOH), plasmonics, MODULATORS

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Citation

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Chicago
Koos, C, W Freude, J Leuthold, M Kohl, LR Dalton, Wim Bogaerts, M Lauermann, et al. 2015. “Silicon-organic Hybrid (SOH) Integration for Low-power and High-speed Signal Generation.” In International Conference on Transparent Optical Networks-ICTON, 1–2.
APA
Koos, C., Freude, W., Leuthold, J., Kohl, M., Dalton, L., Bogaerts, W., Lauermann, M., et al. (2015). Silicon-organic hybrid (SOH) integration for low-power and high-speed signal generation. International Conference on Transparent Optical Networks-ICTON (pp. 1–2). Presented at the 17th International Conference on Transparent Optical Networks (ICTON 2015).
Vancouver
1.
Koos C, Freude W, Leuthold J, Kohl M, Dalton L, Bogaerts W, et al. Silicon-organic hybrid (SOH) integration for low-power and high-speed signal generation. International Conference on Transparent Optical Networks-ICTON. 2015. p. 1–2.
MLA
Koos, C et al. “Silicon-organic Hybrid (SOH) Integration for Low-power and High-speed Signal Generation.” International Conference on Transparent Optical Networks-ICTON. 2015. 1–2. Print.
@inproceedings{7196961,
  abstract     = {Silicon-organic hybrid (SOH) integration combines silicon photonic devices with electro-optic organic cladding materials. We demonstrate that SOH modulators can be used to generate advanced modulation formats with high symbol rates at low operating voltages and low energy consumption. Moreover, we show that the SOH approach can be extended to plasmonic waveguide structures, leading to the plasmonic-organic hybrid (POH) concept.},
  articleno    = {We.C5.1},
  author       = {Koos, C and Freude, W and Leuthold, J and Kohl, M and Dalton, LR and Bogaerts, Wim and Lauermann, M and Wolf, S and Palmer, R and Koeber, S and Melikyan, A and Weimann, C and Ronniger, G and Geistert, K and Schindler, PC and Elder, DL and Wahlbrink, T and Bolten, J and Giesecke, AL and Koeningsmann, M and Kohler, M and Malsam, D},
  booktitle    = {International Conference on Transparent Optical Networks-ICTON},
  isbn         = {978-1-4673-7880-2},
  issn         = {2162-7339},
  keywords     = {integrated modulators,Silicon Photonics,organic electro-optic materials,silicon-organic hybrid (SOH),plasmonics,MODULATORS},
  language     = {eng},
  location     = {Budapest, Hungary},
  pages        = {We.C5.1:1--We.C5.1:2},
  title        = {Silicon-organic hybrid (SOH) integration for low-power and high-speed signal generation},
  year         = {2015},
}

Web of Science
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