29 research outputs found

    Noncommutative Extension of AdS-CFT and Holographic Superconductors

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    In this Letter, we consider a Non-Commutative (NC) extension of AdS-CFT correspondence and its effects on holographic superconductors. NC corrections are incorporated via the NC generalization of Schwarzschild black hole metric in AdS with the probe limit. We study NC effects on the relations connecting the charge density and the critical temperature of the Holographic Superconductors. Furthermore, condensation operator of the superconductor has been analyzed. Our results suggest that generically, NC effects increase the critical temperature of the holographic superconductor.Comment: One figure is added, modification in formalism and noncommutative effects emergent from star product has been removed. Results altered but main conclusions remain unchanged. To appear in Phys.Lett.

    Effects of a Maximal Energy Scale in Thermodynamics for Photon Gas and Construction of Path Integral

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    In this article, we discuss some well-known theoretical models where an observer-independent energy scale or a length scale is present. The presence of this invariant scale necessarily deforms the Lorentz symmetry. We study different aspects and features of such theories about how modifications arise due to this cutoff scale. First we study the formulation of energy-momentum tensor for a perfect fluid in doubly special relativity (DSR), where an energy scale is present. Then we go on to study modifications in thermodynamic properties of photon gas in DSR. Finally we discuss some models with generalized uncertainty principle (GUP).Comment: This is a review article based on our works arXiv:1002.0192, arXiv:0908.0413, arXiv:1205.3919; v2: text overlap with gr-qc/0207085 remove
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