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Campo DC | Valor | Idioma |
---|---|---|
dc.creator | Battistel, O. A. | - |
dc.creator | Dallabona, G. | - |
dc.date.accessioned | 2019-10-16T19:14:42Z | - |
dc.date.available | 2019-10-16T19:14:42Z | - |
dc.date.issued | 2012 | - |
dc.identifier.citation | BATTISTEL, O. A.; DALLABONA, G. A systematization for one-loop 4D Feynman Integrals-different species of massive fields. Journal of Modern Physics, [S.l.], v. 3, p. 1408-1449, 2012. | pt_BR |
dc.identifier.uri | https://www.scirp.org/journal/paperinformation.aspx?paperid=23846 | pt_BR |
dc.identifier.uri | http://repositorio.ufla.br/jspui/handle/1/37252 | - |
dc.description.abstract | A systematization for the manipulations and calculations involving divergent (or not) Feynman integrals, typical of the one loop perturbative solutions of Quantum Field Theory, is proposed. A previous work on the same issue is generalized to treat theories and models having different species of massive fields. An improvement on the strategy is adopted so that no regularization needs to be used. The final results produced, however, can be converted into the ones of reasonable regularizations, especially those belonging to the dimensional regularization (in situations where the method applies). Through an adequate interpretation of the Feynman rules and a convenient representation for involved propagators, the finite and divergent parts are separated before the introduction of the integration in the loop momentum. Only the finite integrals obtained are in fact integrated. The divergent content of the amplitudes are written as a combination of standard mathematical object which are never really integrated. Only very general scale properties of such objects are used. The finite parts, on the other hand, are written in terms of basic functions conveniently introduced. The scale properties of such functions relate them to a well defined way to the basic divergent objects providing simple and transparent connection between both parts in the assintotic regime. All the arbitrariness involved in this type of calculations are preserved in the intermediary steps allowing the identification of universal properties for the divergent integrals, which are required for the maintenance of fundamental symmetries like translational invariance and scale independence in the perturbative amplitudes. Once these consistency relations are imposed no other symmetry is violated in perturbative calculations neither ambiguous terms survive at any theory or model formulated at any space-time dimension including nonrenormalizable cases. Representative examples of perturbative amplitudes involving different species of massive fermions are considered as examples. The referred amplitudes are calculated in detail within the context of the presented strategy (and systematization) and their relations among other Green functions are explicitly verified. At the end a generalization for the finite functions is presented. | pt_BR |
dc.language | en_US | pt_BR |
dc.publisher | Scientific Research | pt_BR |
dc.rights | restrictAccess | pt_BR |
dc.source | Journal of Modern Physics | pt_BR |
dc.subject | Feynman integrals | pt_BR |
dc.subject | Perturbative amplitudes | pt_BR |
dc.title | A systematization for one-loop 4D Feynman Integrals-different species of massive fields | pt_BR |
dc.type | Artigo | pt_BR |
Aparece nas coleções: | DFI - Artigos publicados em periódicos |
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