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W1982438491 abstract "In this article we use the Schwinger--Dyson equations to compute the nonperturbative modifications caused to the infrared finite gluon propagator (in the Landau gauge) by the inclusion of a small number of quark families. Our basic operating assumption is that the main bulk of the effect stems from the ``one-loop dressed'' quark loop contributing to the full gluon self-energy. This quark loop is then calculated, using as basic ingredients the full quark propagator and quark-gluon vertex; for the quark propagator we use the solution obtained from the quark-gap equation, while for the vertex we employ suitable Ansatze, which guarantee the transversality of the answer. The resulting effect is included as a correction to the quenched gluon propagator, obtained in recent lattice simulations. Our main finding is that the unquenched propagator displays a considerable suppression in the intermediate momentum region, which becomes more pronounced as we increase the number of active quark families. The influence of the quarks on the saturation point of the propagator cannot be reliably computed within the present scheme; the general tendency appears to be to decrease it, suggesting a corresponding increase in the effective gluon mass. The renormalization properties of our results, and the uncertainties induced by the unspecified transverse part of the quark-gluon vertex, are discussed. Finally, the gluon propagator is compared with the available unquenched lattice data, showing rather good agreement." @default.
W1982438491 created "2016-06-24" @default.
W1982438491 creator A5006360949 @default.
W1982438491 creator A5063083647 @default.
W1982438491 creator A5080063676 @default.
W1982438491 date "2012-07-27" @default.
W1982438491 modified "2023-10-03" @default.
W1982438491 title "Unquenching the gluon propagator with Schwinger-Dyson equations" @default.
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W1982438491 cites W1965387212 @default.
W1982438491 cites W1965443786 @default.
W1982438491 cites W1968548467 @default.
W1982438491 cites W1977645147 @default.
W1982438491 cites W1978996845 @default.
W1982438491 cites W1980245727 @default.
W1982438491 cites W1983222371 @default.
W1982438491 cites W1984388206 @default.
W1982438491 cites W1994487023 @default.
W1982438491 cites W1994495544 @default.
W1982438491 cites W1995243888 @default.
W1982438491 cites W1995731268 @default.
W1982438491 cites W1998701893 @default.
W1982438491 cites W2000529854 @default.
W1982438491 cites W2004021993 @default.
W1982438491 cites W2008575145 @default.
W1982438491 cites W2017439464 @default.
W1982438491 cites W2025993179 @default.
W1982438491 cites W2034127765 @default.
W1982438491 cites W2043576243 @default.
W1982438491 cites W2047702795 @default.
W1982438491 cites W2049372404 @default.
W1982438491 cites W2051789635 @default.
W1982438491 cites W2058548983 @default.
W1982438491 cites W2067751738 @default.
W1982438491 cites W2068346378 @default.
W1982438491 cites W2076345023 @default.
W1982438491 cites W2080500755 @default.
W1982438491 cites W2082750002 @default.
W1982438491 cites W2089503642 @default.
W1982438491 cites W2090754012 @default.
W1982438491 cites W2097343631 @default.
W1982438491 cites W2104330915 @default.
W1982438491 cites W2114763686 @default.
W1982438491 cites W2118233922 @default.
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W1982438491 cites W2123160158 @default.
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W1982438491 cites W2139303140 @default.
W1982438491 cites W2140609344 @default.
W1982438491 cites W2157398164 @default.
W1982438491 cites W2157932066 @default.
W1982438491 cites W2158726560 @default.
W1982438491 cites W2160906110 @default.
W1982438491 cites W2161764263 @default.
W1982438491 cites W2162431392 @default.
W1982438491 cites W2172254636 @default.
W1982438491 cites W2210189412 @default.
W1982438491 cites W2298964504 @default.
W1982438491 cites W2594005682 @default.
W1982438491 cites W2737181389 @default.
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W1982438491 cites W2950432676 @default.
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W1982438491 cites W3105049322 @default.
W1982438491 cites W3105126517 @default.
W1982438491 cites W3105335904 @default.
W1982438491 cites W3106515042 @default.
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W1982438491 doi "https://doi.org/10.1103/physrevd.86.014032" @default.
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