READ ME File For 'Dataset for: Four-wave Mixing-based Wavelength Conversion and Parametric Amplification in Submicron Silicon Core Fibers'

Dataset DOI:  https://doi.org/10.5258/SOTON/D1530

ReadMe Author: Dong Wu, University of Southampton

This dataset supports the publication:
AUTHORS: Dong Wu, Li Shen, Haonan Ren, Meng Huang, Cosimo Lacava, Joseph Campling, Shiyu Sun,
Thomas W. Hawkins, Ursula J. Gibson, Periklis Petropoulos, John Ballato, and Anna C. Peacock
TITLE:Four-wave Mixing-based Wavelength Conversion and
Parametric Amplification in Submicron Silicon Core Fibers 
JOURNAL: IEEE Journal of Selected Topics in Quantum Electronics.
PAPER DOI IF KNOWN


This dataset contains:

Data supporting etc etc 

The data are as below:

beta24.mat is calculated GVD and FOD dispersion as a function of wavelength
for the SCF with different core diameters in 	Fig.2. 
ExpTpa.mat is the Measured transmission as a function of input peak pump power in Fig.2(b).
Fig3v7.eps is the image in Fig.3. 
Figure5.xlsl is the CE as a function of the signal-idler seperation for different fibers at different pump wavelengths in Fig. 5.
41570.csv, 41580.csv, 41590.csv, 41600.csv, 41610.csv, 41620.csv, 41630.csv, 41640.csv, 41650.csv, 41660.csv, 41670.csv and 41680 .csv  are Transmission spectra taken at the output of the SCF as the
signal wavelength is tuned from 1570 to 1680nm in Fig.6 (a).
GainAll1.mat is the idler conversion gain   and on/off parametric signal gain  as a function of wavelength in Fig.6 (b) and Fig.6 (c).
Figure8.xlsl is the CE as a function of the input power in Fig.8. 
Figure9.xlsl is the measured spectra as a function of wavelength in Fig.9. 
Figure10.xlsl is the BER curves as a fuction of the received optical power in Figure 10. 
 
Date of data collection: January 2019 - June 2020

Information about geographic location of data collection: University of Southampton, U.K.

Related projects:
Engineering and Physical Sciences Research Council (EPSRC) (EP/P000940/1)


Date that the file was created: [Sep, 2020]