First, NEVER set up a solver to fit exponential models with the SAME initial rate parameters for both terms!!!!!!!! So this is flat out BAD:
D_guess = [0.5 0.001 0.5 0.001];
That will result in an immediate problem for the solver. You can have them the same for the amplitude terms out front, but the rate terms SHOULD NOT BE THE SAME.
B = [23.11277703 27.4672621 55.28799957 77.30318258 128.4435712 144.59607 150.1007715 178.348134 178.3800029 186.8782579 262.1289782 289.5852833 387.9146522 404.3098886 414.7168762 438.7555353 460.9984083 463.9649687 622.263271 637.1680637 736.5544189 796.517528 823.94181 834.148104 875.3224784 883.5748864 1120.051524 1135.690878 1196.020072 1260.164236 1372.270872 1417.958217 1421.352213 1437.177887 1738.235663 1766.311611 1802.411799 1829.695659 2059.704061 2099.087613 2124.773971 2155.740229 2447.429036 2491.720482 2505.111798 2622.426034 2886.241378 2908.528677 2946.363137 3047.494139 3239.372347 3286.412652 3380.505981 3595.733583 3849.675405 3851.882823 3901.945387 4093.219946 4142.141544 4173.598221 4404.59216 4722.334446 4922.527799 4956.628395 4991.520719 5155.736628 5166.668506 5292.917652 5563.979018 6002.228624 6127.085857 6200.478095 6215.089135 6265.623506 6280.157597 6646.587256 6858.666555 7435.416116 7463.34958 7470.463221 7515.404453 7572.650633 7583.431923 8154.228757 8288.654772 8781.187652 8861.477195 8931.318967 9021.896921 9064.205214 9105.489879 9815.842157 9853.943669 10197.7968 10318.37582 10530.99402 10689.75288 10761.67104 10766.65196 11554.53325 11631.42746 11720.29066 11886.10034 12262.37474 12449.29363 12566.91817 12654.73847 13348.66924 13390.4235 13564.65074 13600.98465 14125.46112 14342.82746 14506.28851 14701.09922 15082.93253 15354.02702 15361.61444 15724.51375 16370.35437 16584.76298 16900.75329 16923.08054 17254.2292 17468.10605 18002.01474 18531.87437 18802.34157 18869.11326 19253.70066 19709.89835 20433.48763 20827.38744 20921.0307 21159.02429 22086.99132 23018.93242 23078.83285 23256.89361 23654.81114 24599.38498 25758.3491 25820.39285 26289.70212 27247.07931 28517.88518 28651.73769 30030.07432 31699.09817 34900.43055 38255.73483];
y = [1 1 1 1 1 1 0.931938171 1 0.956559088 1 0.870266512 0.847039689 0.819706047 0.828390985 0.820051375 0.817313288 0.859815135 0.854877764 0.690813826 0.654914521 0.683075897 0.638696623 0.622781558 0.630439319 0.724997201 0.655188661 0.474937192 0.507599749 0.53700173 0.487243326 0.452908865 0.453747137 0.587406267 0.486231391 0.332199872 0.403521204 0.347536005 0.370257005 0.330503095 0.450762837 0.35864512 0.327000256 0.28955166 0.232696502 0.281911772 0.230350445 0.245922383 0.325485137 0.246350406 0.239027624 0.191768251 0.212565359 0.160778372 0.14856721 0.222365205 0.178102728 0.196251022 0.171584923 0.129942067 0.155410041 0.106192265 0.093225369 0.142592864 0.119221524 0.136018225 0.082431061 0.107723572 0.1139216 0.061249575 0.056398596 0.086408465 0.07132462 0.08647058 0.069306234 0.050232351 0.067788085 0.036482203 0.032246077 0.049572052 0.041494183 0.029684983 0.049760318 0.038130662 0.036214727 0.018926179 0.022604606 0.017131299 0.027475932 0.017451191 0.026141832 0.018448348 0.017620037 0.009337477 0.012321971 0.009783651 0.014762149 0.012895101 0.009050812 0.008452548 0.004582352 0.008153299 0.006376435 0.005740571 0.008224445 0.006262219 0.003883995 0.004694069 0.003368699 0.002409039 0.003584668 0.003811612 0.005099296 0.003120894 0.001951461 0.002628413 0.001891251 0.002514979 0.001513604 0.001975856 0.001713393 0.001142865 0.00167866 0.001150661 0.001987164 0.001172911 0.001219744 0.001045124 0.000792151 0.000740858 0.001330426 0.000980825 0.000928473 0.000732892 0.000567673 0.000572429 0.000921887 0.000734829 0.000361819 0.000473032 0.000472086 0.000804721 0.000584736 0.00038979 0.000361897 0.000726435 0.000697616 0.000535132 0.000676624 0.000467918 0.00036719 0.000318515];
Next, lets plot the data. How good is it? You have much data, but it seems pretty noisy.
plot(B,y,'.')
And that tells me little. Except what I should have known to do in the first place. (I did include the first plot, just to show my thinking.)
semilogy(B,y,'.')
grid on
Again, pretty darn noisy. It almost seems as if you have multiple sets of data overlaid on top of each other. But the first part is pretty linear in the logged plot. And that suggests we will be able to model at least one term well.
Now to try a fit.
min(B)
mdl = fittype('D1*exp(-(B-23.11277703)*D2) + D3*exp(-(B-23.11277703)*D4)','indep','B')
Dstart = [.5 .001 .5 .0001];
fittedmdl = fit(B',y',mdl,'start',Dstart)
Bplot = min(B):max(B);
ypred = fittedmdl(Bplot);
plot(B,y,'b.')
hold on
plot(Bplot,ypred,'r-')
hold off
And that seems to fit reasonably well. But now log the axes, and we see:
semilogy(B,y,'b.')
hold on
semilogy(Bplot,ypred,'r-')
hold off
Pretty crappy here. The fit is terrible in the log plot. It suggests again something I knew before, but I need to motivate what I am doing. Otherwise, I'll just get peppered with questions later on anyway.
We should be doing the fit in a log domain. Except, if we do that, then we have numerical problems, because we will be taking the logs of negative numbers at times. (Trust me here.)
So instead, I'll use weights that will mimic the same process.
W = 1./y';
fittedmdl2 = fit(B',y',mdl,'start',Dstart,'weight',W)
ypred = fittedmdl2(Bplot);
plot(B,y,'b.')
hold on
plot(Bplot,ypred,'r-')
hold off
semilogy(B,y,'b.')
hold on
semilogy(Bplot,ypred,'r-')
hold off
Still, the fit is crapola down low. And that suggests your model does not expllain the data. This is apparently not well fit by a sum of exponentials. There is other stuff happening in the tail, something different happening down low. Possibly that is just noise, and we should discard all the data above B==15000 or so. I'll try 20k.
k = B<=20000;
fittedmdl3 = fit(B(k)',y(k)',mdl,'start',Dstart,'weight',W(k))
Bplotk = min(B):20000;
ypredk = fittedmdl2(Bplotk);
semilogy(B(k),y(k),'b.')
hold on
semilogy(Bplotk,ypredk,'r-')
hold off
Finally, that seems quasi-reasonable. The amplitude parameters D(1) and D(3) sum to quite close to 1.
