Physics – Data Analysis – Statistics and Probability
Scientific paper
1998-07-28
Physics
Data Analysis, Statistics and Probability
13 figures
Scientific paper
10.1063/1.479059
A formula of Doetsch ({\em Math. Zeitschr.} {\bf 42}, 263 (1937)) is generalized and used to numerically invert the one-sided Laplace transform ${\hat C}(\beta)$. The necessary input is only the values of ${\hat C}(\beta)$ on the positive real axis. The method is applicable provided that the functions $\hat{C}(\beta)$ belong to the function space $L^2_\alpha$ defined by the condition that $ G(x) = e^{x\alpha}\hat{C}(e^x),~ \alpha > 0$ has to be square integrable. This space includes sums of exponential decays ${\hat C}(\beta)=\sum_n^{\infty}a_n e^{-\beta E_n}$, e.g. partition functions with $a_n = 1$. In practice, the inversion algorithm consists of two subsequent fast Fourier transforms. High accuracy inverted data can be obtained, provided that the signal is also highly accurate. The method is demonstrated for a harmonic partition function and resonant transmission through a barrier. We find accurately inverted functions even in the presence of noise.
Huepper Bruno
Pollak Eli
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