Dataset in support of the Conference paper 'Extending L-Band Gain to 1625 nm Using Er3+:Yb3+ Co-Doped Silica Fibre Pumped by 1480 nm Laser Diodes'
Dataset in support of the Conference paper 'Extending L-Band Gain to 1625 nm Using Er3+:Yb3+ Co-Doped Silica Fibre Pumped by 1480 nm Laser Diodes'
Conference paper for ECOC 2022 European Conference on Optical Communication
The excel file contains all experimental data used for generating Fig.1, Fig.3, Fig.4 and Fig.5
The figures are as follows:
Fig. 1 The absorption coefficient variation with the launched power at 1480 nm, where the inset shows the small-signal absorption coefficient spectrum measured by the WLS.
Fig. 3 The gain and NF spectra for 18 m of EYDF using 811 mW of pump power at 1480 nm for the multi-channel and single-channel input signals, respectively.
Fig. 4 (a) The multi-channel gain and NF spectra using different pump powers, where the inset shows the gain and NF variation at 1600 and 1616 nm. The slope of the dashed line which intersects the origin was illustrated;
Fig. 4 (b) The single-channel gain and NF variation with the pump power at 1600 and 1625 nm, where the insets show the gain and NF variation with the TLS signal power at 1600 and 1625nm.
Fig. 5 The temperature-dependent gain coefficient spectrum for the multi-channel signal, where the inset shows the gain and NF variation with the temperature at 1616 nm.
University of Southampton
Zhai, Ziwei
95caa116-8203-4b74-aa67-b5d00cf14e6d
Sahu, Jayanta
009f5fb3-6555-411a-9a0c-9a1b5a29ceb2
Zhai, Ziwei
95caa116-8203-4b74-aa67-b5d00cf14e6d
Sahu, Jayanta
009f5fb3-6555-411a-9a0c-9a1b5a29ceb2
Zhai, Ziwei
(2022)
Dataset in support of the Conference paper 'Extending L-Band Gain to 1625 nm Using Er3+:Yb3+ Co-Doped Silica Fibre Pumped by 1480 nm Laser Diodes'.
University of Southampton
doi:10.5258/SOTON/D2202
[Dataset]
Abstract
Conference paper for ECOC 2022 European Conference on Optical Communication
The excel file contains all experimental data used for generating Fig.1, Fig.3, Fig.4 and Fig.5
The figures are as follows:
Fig. 1 The absorption coefficient variation with the launched power at 1480 nm, where the inset shows the small-signal absorption coefficient spectrum measured by the WLS.
Fig. 3 The gain and NF spectra for 18 m of EYDF using 811 mW of pump power at 1480 nm for the multi-channel and single-channel input signals, respectively.
Fig. 4 (a) The multi-channel gain and NF spectra using different pump powers, where the inset shows the gain and NF variation at 1600 and 1616 nm. The slope of the dashed line which intersects the origin was illustrated;
Fig. 4 (b) The single-channel gain and NF variation with the pump power at 1600 and 1625 nm, where the insets show the gain and NF variation with the TLS signal power at 1600 and 1625nm.
Fig. 5 The temperature-dependent gain coefficient spectrum for the multi-channel signal, where the inset shows the gain and NF variation with the temperature at 1616 nm.
Archive
Data_for_ECOC_2022.zip
- Dataset
Text
read_me_zhai.txt
- Text
More information
Published date: 2022
Identifiers
Local EPrints ID: 472708
URI: http://eprints.soton.ac.uk/id/eprint/472708
PURE UUID: 0b1b85a4-1271-4c0a-a0b5-fc5d006c1a54
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Date deposited: 15 Dec 2022 17:33
Last modified: 06 May 2023 02:02
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