Evolutionary Fitting Methods for the Extraction of Mass Spectra in Lattice Field Theory
arXiv:0707.2788 · doi:10.1016/j.cpc.2007.12.005
Abstract
We present an application of evolutionary algorithms to the curve-fitting problems commonly encountered when trying to extract particle masses from correlators in Lattice QCD. Harnessing the flexibility of evolutionary methods in global optimization allows us to dynamically adapt the number of states to be fitted along with their energies so as to minimize overall Ï^2/(d.o.f.), leading to a promising new way of extracting the mass spectrum from measured correlation functions.
39 pages, 7 figures; uses elsart.cls; version to appear in Comput.Phys.Commun