Abstract:
Ultra-broadband wavelength conversion is identified as one of the key issues in future high capacity, flexible optical networks. In this contribution, methods to optimize...Show MoreMetadata
Abstract:
Ultra-broadband wavelength conversion is identified as one of the key issues in future high capacity, flexible optical networks. In this contribution, methods to optimize the design of a multi-modal high-nonlinear SOI waveguide to achieve broadband wavelength conversion between dedicated optical wavelength bands are presented. Finally, measurements and experimental results are discussed that prove ultra-broadband conversion of data signals between extreme λ-bands.
Date of Conference: 02-06 July 2023
Date Added to IEEE Xplore: 08 August 2023
ISBN Information:
ISSN Information:
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- IEEE Keywords
- Index Terms
- Optical Wavelength ,
- Optical Conversion ,
- Wavelength Conversion ,
- Optical Wavelength Conversion ,
- Degrees Of Freedom ,
- Energy Conservation ,
- Single-mode Fiber ,
- Pump Laser ,
- Phase Matching ,
- Photonic Integrated Circuits ,
- Signal Wavelength ,
- Optical Link ,
- Silica Fiber ,
- Four-wave Mixing ,
- Phase Mismatch ,
- Standard Single-mode Fiber ,
- Waveguide Length ,
- Fiber Mode ,
- Waveguide Dimensions ,
- Waveguide Cross Section
- Author Keywords
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Optical Wavelength ,
- Optical Conversion ,
- Wavelength Conversion ,
- Optical Wavelength Conversion ,
- Degrees Of Freedom ,
- Energy Conservation ,
- Single-mode Fiber ,
- Pump Laser ,
- Phase Matching ,
- Photonic Integrated Circuits ,
- Signal Wavelength ,
- Optical Link ,
- Silica Fiber ,
- Four-wave Mixing ,
- Phase Mismatch ,
- Standard Single-mode Fiber ,
- Waveguide Length ,
- Fiber Mode ,
- Waveguide Dimensions ,
- Waveguide Cross Section
- Author Keywords
