Edelstein Glaubach, José DanielSierra García, Jesús Aníbal2017-10-202017-10-202017http://hdl.handle.net/10347/15890In the present thesis we have the objective of testing and extending the domain of applicability of the holographic correspondence, a.k.a. AdS/CFT. This long term motivation has been made concrete in three di erent problem; there are also some additional speci c goals for each them. The rst is the role of higher curvature gravity corrections on thermal phase transitions between AdS and dS geometries. Apart from the purely gravitational interest, this research may eventually be helpful to clarify the correspondence in the case of dS geometries. Our main result is a phase transition from AdS boundary leading to the formation of dS cosmological horizon in Lanczos-Gauss-Bonnet gravity. In the presence of the higher curvature corrections no matter elds are required to match both sides of the bubble due to the Lanczos-Gauss-Bonnet term in the action. In the second we have made use of Non-Abelian T-duality (NATD) to generate new Supergravity solutions as well as to understand the interplay of NATD with AdS/CFT. We are interested in deformations of Klebanov-Witten (KW) background AdS5Ã T1;1 owing to an AdS3 factor in the IR. We generate new examples of them applying Non-Abelian T-duality on previously found solutions. After it, we compare the holographic observables of the generated solutions with those of the known deformations. The new geometries are smooth, supersymmetric and seem to be dual to long linear quiver gauge theories. Finally, we have carried the extension of the AdS/CFT correspondence, in particular the holographic renormalization procedure, to reproduce the Ward identities of symmetry breaking in a 1+1 holographic superconductor. It is established that alternative quantization is necessary in the three-dimensional bulk case, and after properly performed, the eld theoretic higher dimensional Ward identities are recovered. This extension may be nd application in AdS/CMT.engEsta obra atópase baixo unha licenza internacional Creative Commons BY-NC-ND 4.0. Calquera forma de reprodución, distribución, comunicación pública ou transformación desta obra non incluída na licenza Creative Commons BY-NC-ND 4.0 só pode ser realizada coa autorización expresa dos titulares, salvo excepción prevista pola lei. Pode acceder Vde. ao texto completo da licenza nesta ligazón: https://creativecommons.org/licenses/by-nc-nd/4.0/deed.glhttps://creativecommons.org/licenses/by-nc-nd/4.0/deed.glTeoría de CuerdasAdS/CFTTeoría Cuántica de CamposNATDMaterias::Investigación::22 Física::2212 Física teórica::221212 Teoría cuántica de camposMaterias::Investigación::22 Física::2212 Física teórica::221204 Camposdoctoral thesisopen access