49530.pdf

49530.pdf

During the last few years, large-scale efforts towards realizing high-photonic integration densities have put SOAs in the spotlight once again. Hence, the need to develop a complete framework for SOA-induced signal distortion to accurately evaluate a system’s performance has now become evident. To c...

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Γλώσσα:English
Έκδοση: InTechOpen 2021
id oapen-20.500.12657-49153
record_format dspace
spelling oapen-20.500.12657-491532021-11-23T13:56:58Z Chapter Dissipative Solitons in Fibre Lasers Kalashnikov, Vladimir L. Sergeyev, Sergey Deterministic timing jitter, Pulse peak power equalization, Intensity modulation reduction, Semiconductor optical amplifier, Modulation depth index bic Book Industry Communication::T Technology, engineering, agriculture::TT Other technologies & applied sciences::TTB Applied optics During the last few years, large-scale efforts towards realizing high-photonic integration densities have put SOAs in the spotlight once again. Hence, the need to develop a complete framework for SOA-induced signal distortion to accurately evaluate a system’s performance has now become evident. To cope with this demand, we present a detailed theoretical and experimental investigation of the deterministic timing jitter and the pulse peak power equalization of SOA-amplified intensity-modulated optical pulses. The deterministic timing jitter model relies on the pulse mean arrival time estimation and its analytic formula reveals an approximate linear relationship between the deterministic timing jitter and the logarithmic values of intensity modulation when the SOA gain recovery time is faster than the pulse period. The theoretical analysis also arrives at an analytic expression for the intensity modulation reduction (IMR), which clearly elucidates the pulse peak power equalization mechanism of SOA. The IMR analysis shows that the output intensity modulation depth is linearly related to the respective input modulation depth of the optical pulses when the gain recovery time is faster than the pulse period. This novel theoretical platform provides a qualitative and quantitative insight into the SOA performance in case of intensity-modulated optical pulses. 2021-06-02T10:07:57Z 2021-06-02T10:07:57Z 2016 chapter ONIX_20210602_10.5772/61713_267 https://library.oapen.org/handle/20.500.12657/49153 eng application/pdf n/a 49530.pdf InTechOpen 10.5772/61713 10.5772/61713 09f6769d-48ed-467d-b150-4cf2680656a1 FP7-PEOPLE-2012-IAPP 324391 open access
institution OAPEN
collection DSpace
language English
description During the last few years, large-scale efforts towards realizing high-photonic integration densities have put SOAs in the spotlight once again. Hence, the need to develop a complete framework for SOA-induced signal distortion to accurately evaluate a system’s performance has now become evident. To cope with this demand, we present a detailed theoretical and experimental investigation of the deterministic timing jitter and the pulse peak power equalization of SOA-amplified intensity-modulated optical pulses. The deterministic timing jitter model relies on the pulse mean arrival time estimation and its analytic formula reveals an approximate linear relationship between the deterministic timing jitter and the logarithmic values of intensity modulation when the SOA gain recovery time is faster than the pulse period. The theoretical analysis also arrives at an analytic expression for the intensity modulation reduction (IMR), which clearly elucidates the pulse peak power equalization mechanism of SOA. The IMR analysis shows that the output intensity modulation depth is linearly related to the respective input modulation depth of the optical pulses when the gain recovery time is faster than the pulse period. This novel theoretical platform provides a qualitative and quantitative insight into the SOA performance in case of intensity-modulated optical pulses.
title 49530.pdf
spellingShingle 49530.pdf
title_short 49530.pdf
title_full 49530.pdf
title_fullStr 49530.pdf
title_full_unstemmed 49530.pdf
title_sort 49530.pdf
publisher InTechOpen
publishDate 2021
_version_ 1771297603520036864

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