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I'm sitting with measurements of radiation intensity over time on two unstable isotopes (in the same sample). The radiation is of two different energies, leaving me with a second-order exponential formula for decay - similar to the formula for exponential decay but with two terms, these being identical but for the different starting intensities and the different half-lives of the different isotopes.

f(t)=(I_0,1)*e^(-lambda_1*t) + (I_0,2)*e^(-lambda_2*t) %(eventually with a constant term as well)

There are numerous ways to fit the data to this function, but how do I get the uncertainties
(for example in the form of standard deviation) for the fitted variables (the half-lives and initial intensities)?

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have you ever used gnuplot(gnuplot.info)? it returns very nice uncertainties; people.duke.edu/~hpgavin/gnuplot.html in 7. the fitting procedure is described –  Paweł Kordowski Jan 23 at 11:18

1 Answer 1

up vote 0 down vote accepted

Using the NONLINEARMODEL class, you can get the standard errors of the fitted variables as follows:

fitFunc = @(b,t) b(1)*exp(-b(2)*t) + b(3)*exp(-b(4)*t);

%# leave off the semicolon for nicely formatted output
mdl = fitnlm(tVector, energies, fitFunc, initialGuessForBeta)

%# SE of coefficients
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