Holographic current correlators at finite coupling and scattering off a supersymmetric plasma
Dec, 2009
38 pages
Published in:
- JHEP 04 (2010) 012
e-Print:
- 0912.4704 [hep-th]
Report number:
- OUTP-09-31-P
View in:
Citations per year
Abstract: (arXiv)
By studying the effect of the order(\alpha'^3) string theory corrections to type IIB supergravity, including those corrections involving the Ramond-Ramond five-form field strength, we obtain the corrected equations of motion of an Abelian perturbation of the AdS_5-Schwarzschild black hole. We then use the gauge theory/string theory duality to examine the coupling-constant dependence of vector current correlators associated to a gauged U(1) sub-group of the global R-symmetry group of strongly-coupled N=4 supersymmetric Yang-Mills theory at finite temperature. The corrections induce a set of higher-derivative operators for the U(1) gauge field, but their effect is highly suppressed. We thus find that the order(\alpha'^3) corrections affect the vector correlators only indirectly, through the corrected metric. We apply our results to investigate scattering off a supersymmetric Yang-Mills plasma at low and high energy. In the latter regime, where Deep Inelastic Scattering is expected to occur, we find an enhancement of the plasma structure functions in comparison with the infinite 't Hooft coupling result.Note:
- 38 pages, 6 figures
- AdS-CFT Correspondence
- Black Holes in String Theory
- Deep Inelastic Scattering
- current: correlation function
- gauge field theory: Yang-Mills: supersymmetry
- string model: correction
- correlation function: vector
- gauge field theory: U(1)
- current: vector
- coupling constant: dependence
References(51)
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