Please have a look at the CITATION file.
Furthermore use: D. Stamen, T. Isken, B. Kubis, M. Mikhasenko, M. Niehus: arXiv:2212.11767 [hep-ph]
- R. García-Martín, R. Kamiński, J. R. Peláez, J. Ruiz de Elvira,
F. J. Ynduráin: Phys.Rev. D83 (2011) 074004
Some of the parametrizations for scattering phase shifts presented in this paper are accessible viakhuri.madrid. - J. R. Peláez, A. Rodas, J. Ruiz de Elvira: Eur.Phys.J. C79 (2019) no.12, 1008
Some of the parametrizations for scattering amplitudes presented in this paper are accessible viakhuri.madrid_global. - R. Omnès: Il Nuovo Cimento 8.2 (1958), pp. 316-326
The function introduced in this paper is accessible viakhuri.omnes. - J. Gasser, A. Rusetsky: Eur.Phys.J. C78 (2018) no.11, 906
The method that is used in the python API to solve the Khuri Treiman equations is a modified version of the one presented in this paper. - M. Niehus, M. Hoferichter, B. Kubis: arXiv:1902.10150 [hep-ph]
The aforementioned modification is described in this paper. - F. Niecknig, B. Kubis, S. Schneider: Eur.Phys.J. C72 (2012) 2014
Sketch of the path deformation that is used in the c++ api.
Details can be found in: PhD thesis Schneider 2012, PhD thesis Niecknig 2014, Master's thesis Isken 2015 - H. Akdag, B. Kubis, T. Isken: JHEP 02 (2022) 137, JHEP 12 (2022) 156 (erratum)
Reconstruction theorems for the eta decays. - D. Stamen, T. Isken, B. Kubis, M. Mikhasenko, M. Niehus: arXiv:2212.11767 [hep-ph]
All other reconstruction theorems are either derived there or in references contained therein. The code is published together with this paper.