Available Spectral Space in C-Band Expansion Remaining After Optical Quantization Based on Intensity-to-Lambda Conversion

Available Spectral Space in C-Band Expansion Remaining After Optical Quantization Based on Intensity-to-Lambda Conversion

A high degree of freedom in spectral domain allows us to accommodate additional optical signal processing for wavelength division multiplexing in photonic analog-to-digital conversion. We experimentally verified a spectral compression to save a necessary bandwidth for soliton self-frequency shift ba...

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Veröffentlicht in:IEICE Transactions on Communications 2020/11/01, Vol.E103.B(11), pp.1206-1213
Hauptverfasser: KAIHORI, Yuta, YAMASAKI, Yu, KONISHI, Tsuyoshi
Format: Artikel
Sprache:eng
Schlagworte:
Analog to digital conversion
Bandwidths
C band
Four-wave mixing
Frequency shift
Longitudinal waves
Measurement
Optical communication
optical quantization
photonic analog-to-digital conversion
Signal processing
Solitary waves
Spectra
spectral compression
sum-frequency generation
Wavelength division multiplexing
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Zusammenfassung:A high degree of freedom in spectral domain allows us to accommodate additional optical signal processing for wavelength division multiplexing in photonic analog-to-digital conversion. We experimentally verified a spectral compression to save a necessary bandwidth for soliton self-frequency shift based optical quantization through the cascade of the four-wave mixing based and the sum-frequency generation based spectral compression. This approach can realize 0.03 nm individual bandwidth correspond to save up to more than 85 percent of bandwidth for 7-bit optical quantization in C-band.
ISSN:0916-8516
1745-1345
DOI:10.1587/transcom.2019OBI0002