Podolsky propagator in the gap and bound-state equations

El-Bennich, Bruno Y Rojas, Eduardo Y Ramos Zambrano, Germán Enrique (2021) Podolsky propagator in the gap and bound-state equations. PHYSICAL REVIEW D, 103 (7). 076008-1-076008-11. ISSN 2470-0010

Text podolski.pdf Download (534kB)

Resumen

Based on the generalized quantum electrodynamics expression for the Podolsky propagator, which preserves gauge invariance for massive photons, we propose a model for the massive gluon propagator that reproduces well-known features of established strong-interaction models in the framework of the Dyson-Schwinger equation. By adjusting the Podolsky mass and the coupling strength we thus construct a model with simple analytical properties known from perturbative theory, yet well suited to describe a confining interaction. We obtain solutions of the Dyson-Schwinger equation for the quark at spacelike momenta on the real axis as well as on the complex plane and solving the bound-state problem with the Bethe-Salpeter equation yields masses and weak decay constants of the π, K and ηc in excellent agreement with experimental values, while the D and D s are reasonably well described. The analytical simplicity of this effective interaction has the potential to be useful for phenomenological applications and may facilitate calculations in Minkowski space.

Tipo de Elemento:	Artículo
Asunto:	Q Ciencias > QC Physics
Division:	Facultad de Ciencias Exactas y Naturales > Programa de Física > Productividad
Depósito de Usuario:	Prof. Eduardo Rojas
Fecha Deposito:	10 Dec 2021 15:51
Ultima Modificación:	10 Dec 2021 15:51
URI:	http://sired.udenar.edu.co/id/eprint/7055

Ver Elemento