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W2063896114 abstract "We continue our study on the gravity duals for strongly coupled large $N$ QCD with fundamental flavors both at zero and nonzero temperatures. The gravity dual at zero temperature captures the logarithmic runnings of the coupling constants at far IR and the almost conformal, albeit strongly coupled, behavior at the UV. The full UV completion of gauge theory is accomplished in the gravity side by attaching an anti--de Sitter cap to the IR geometry described in our previous work. Attaching such an anti--de Sitter cap is highly nontrivial because it amounts to finding the right interpolating geometry and sources that take us from a gravity solution with nonzero three-form fluxes to another one that has almost vanishing three-form fluxes. In this paper we give a concrete realization of such a scenario, completing the program advocated in our earlier paper. One of the main advantages of having such a background, in addition to providing a dual description of the required gauge theory, is the absence of Landau poles and consequently the UV divergences of the Wilson loops. The potential for the heaviest fundamental quark-antiquark pairs, which are like the heavy quarkonium states in realistic QCD, can be computed and their linear behavior at large separations and zero temperature could be demonstrated. At small separations the expected Coulombic behavior appears to dominate. On the other hand, at nonzero temperatures interesting properties like heavy quarkonium-type suppressions and melting are shown to emerge from our gravity dual. We provide some discussions of the melting temperature and compare our results with the charmonium spectrum and lattice simulations. We argue that, in spite of the large $N$ nature of our construction, certain model-independent predictions can be made." @default.
W2063896114 created "2016-06-24" @default.
W2063896114 creator A5015974181 @default.
W2063896114 creator A5047084915 @default.
W2063896114 creator A5057793883 @default.
W2063896114 creator A5059648574 @default.
W2063896114 date "2010-07-07" @default.
W2063896114 modified "2023-09-27" @default.
W2063896114 title "Toward largeNthermal QCD from dual gravity: The heavy quarkonium potential" @default.
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W2063896114 doi "https://doi.org/10.1103/physrevd.82.026004" @default.
W2063896114 hasPublicationYear "2010" @default.
W2063896114 type Work @default.