I am trying to fit a peak with a Gaussian-Lorentzian Cross Product and need help finding the correct FWHM. When I fit the peak with a Gaussian function I get a FWHM of ~22 and when I fit a Lorentzian function I get a w of ~16. However, when I use the Gaussian_LorenCross ...
% This is a part of SSPROP-NFOL: https://github.com/TerenceWSK/SSPROP-NFOL % the specified parameters: % % % USAGE: % % T0 = GetFWHM(u,t); % T0 = GetFWHM(u,t,tc); % % INPUT: % % type string parameter that determine pulse type, 'gaussian' or 'sech'('sechpulse') % u...
aNext, we use the well-known transmission function for the uniform Bragg grating to show that this grating is capable ofproviding a degree of dispersion compensation that far exceeds the prediction of. We consider a 40-ps full-width at half maximum (FWHM) Gaussian pulse at 1.55 m wavelength...
ChangeLog.txt FWHM2T0.m GetFWHM.m GetT0.m LICENSE README.md T02FWHM.m VERSION fwhm.m gaussian.m libfftw3-3.dll libfftw3.h sechpulse.m solitonpulse.m solitonpulseFWHM.m solitonpulseT0.m sspropc.mexw64 sspropvc.mexw64 stokes.m wspace.mBreadcrumbs SSPROP-NFOL / fwhm.m Latest...
aNext, we use the well-known transmission function for the uniform Bragg grating to show that this grating is capable ofproviding a degree of dispersion compensation that far exceeds the prediction of [9]. We consider a 40-ps full-width at half maximum (FWHM) Gaussian pulse at 1.55 m wave...