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Photonic Network Communications

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16-01-2019 | Original Paper

All-optical regenerative technique for width-tunable ultra-wideband signal generation

Authors: Jawad Mirza, Salman Ghafoor, Ashiq Hussain

Published in: Photonic Network Communications | Issue 1/2019

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Abstract

We demonstrate all-optical generation of width-tunable mono-cycle pulses for ultra-wideband communication. It has been shown that the width of the mono-cycle pulses can be tuned dynamically by simply varying the power of the optical signal. We also investigate the regenerative property of the nonlinear medium-based technique for the generation of mono-cycle pulses. For the purpose of comparison, ultra-wideband mono-cycle pulses are also generated through the optical delay line-based technique. It has been demonstrated through numerical simulations that the nonlinear medium-based technique is highly resilient to amplified spontaneous emission noise that is induced over the optical signal. Furthermore, we have shown that the highly nonlinear fiber-based nonlinear medium performs better than the semiconductor optical amplifier-based medium. Bit error rate measurements are taken for different values of optical signal-to-noise ratios in order to elaborate our work.

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Title: All-optical regenerative technique for width-tunable ultra-wideband signal generation
Authors: Jawad Mirza
Salman Ghafoor
Ashiq Hussain
Publication date: 16-01-2019
Publisher: Springer US
Published in: Photonic Network Communications / Issue 1/2019
Print ISSN: 1387-974X
Electronic ISSN: 1572-8188
DOI: https://doi.org/10.1007/s11107-018-0818-0

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