D-branes in AdS2 × H2 × H2 under the non-Abelian T-duality
Abstract
We proceed to construct a non-Abelian dual pair for the AdS2 × H2 × H2 background by applying the non-Abelian T-duality (here as Poisson-Lie T-duality on a semi-Abelian double). By using a certain parameterization of the 6-dimensional Lie group A2 A2 A2 we construct the original σ-model including the AdS2 × H2 × H2 metric in the absence of B-field. It is shown that the dual background constructed by means of the Poisson-Lie T-duality is supported by a B-field and a metric whose contains a physical singularity. By studying the behavior of the dual spacetime at small (r , y, u) coordinates, we show that the dual metric with a zero field strength and a non-trivial dilaton field make up a solution for the vanishing of the one-loop beta-function equations. Furthermore, at large (r , y, u), it is shown that the AdS2 × H2 × H2 solution is preserved under the non-Abelian T-duality. Finally, using the duality map obtained from the canonical transformation description of the Poisson-Lie T-duality for the gluing matrix which locally defines the properties of the D-brane, we find seven different cases of the gluing matrices for the AdS2 × H2 × H2 σ-model and its dual pair. In this way, it is found a symmetric duality action on the branes linking together in a duality chain.
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