Please use this identifier to cite or link to this item: https://physrep.ff.bg.ac.rs/handle/123456789/71
Title: Yang-Mills theory in the S O (2, 3) model of noncommutative gravity
Authors: Dimitrijević-Ćirić, Marija 
Gočanin, Dragoljub 
Konjik, Nikola 
Radovanović, Voja 
Keywords: NC gravity;NC Yang-Mills;Seiberg-Witten map
Issue Date: 10-Dec-2018
Journal: International Journal of Modern Physics A
Abstract: 
According to the standard cosmological model, thermodynamic conditions of the early Universe were such that nuclear matter existed in the state of quark-gluon plasma, rather than hadrons. On the other hand, it is generally believed that quantum gravity effects become ever more stronger as we approach the Big Bang, in particular, we expect that the phenomenon of space-time noncommutativity will be significant. Thus we are led to consider the properties of quarks and gluons in noncommutative space-time. For this, we employ the SO(2, 3) model of noncommutative gravity. As a first step towards the full theoretical treatment of the effects of noncommutativity on quark-gluon plasma, our main goal in this paper is to consistently incorporate Yang-Mills gauge fields in the SO(2, 3) framework and investigate their coupling to gravity that arises due to space-time noncommutativity. We construct an action that is invariant under deformed SO(2, 3) × SU(N) gauge transformations and expand it perturbatively in orders of the canonical deformation parameter αβ via Seiberg-Witten map. In particular, we analyze the flat-space-time limit and demonstrate that residual noncommutativity induces various new couplings of quarks and gluons.
URI: https://physrep.ff.bg.ac.rs/handle/123456789/71
ISSN: 0217-751X
DOI: 10.1142/S0217751X18450057
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