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We demonstrated a novel carbon-nanotube-deposited PLC waveguide for four-wave-mixing-based wavelength conversion. Tunable wavelength converted 10-Gb/s NRZ signal is achieved with 3-dB power penalty. This is the first demonstration of CNT-technology-based device for integrated photonic applications.
We report the observation of four-wave mixing in carbon nanotubes deposited around a tapered fiber with optical deposition method. Wavelength conversion of 10 Gb/s non-return-to-zero signal is demonstrated using the generated four-wave mixing effect.
We demonstrate wavelength conversion based on cross-phase modulation induced nonlinear polarization rotation in a carbon nanotubes-filled micro-slot fiber device. Wavelength converted signal with 3-dB power penalty for 10 Gb/s NRZ signal is obtained.
We demonstrate cross-phase modulation induced nonlinear polarization rotation based wavelength conversion using a carbon nanotubes deposited D-shaped fiber. Wavelength tunable converted signal over C-band is obtained with 2.5-dB power penalty for 10 Gb/s NRZ signal.
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