On equivalent methods for functional determinants
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Computing functional determinants of differential operators is central to any field-theoretical calculation relying on a saddle-point expansion. A variety of approaches is available for the computation that avoid having to know the eigenspectrum of the operator, and in particular the Gel'fand-Yaglom theorem and the Green's function method. In this note, we show how both approaches can be constructed using a contour integral argument and conclude that these are completely equivalent for computing ratios of determinants of one-dimensional operators. Furthermore, we comment on the presence of vanishing as well as negative eigenvalues and show how the Green's function method provides a natural prescription for handling them.
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Two Regularized Determinants of Laplacian through Resurgence theory
Closed formulas for two regularized Laplacian determinants on Riemann manifolds are derived using Borel-Laplace resummation of the analytic continuation of a theta series built from the square-root spectrum.
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