Abstract
AbstractIn this paper we discuss the existence of quantum D-brane states in the strong gravitational field and in the presence of a constant Kalb-Ramond field. A semiclassical string quantization method in which the spacetime metric g AB and the constant antisymmetric Kalb-Ramond field b AB are treated exactly is employed. In this framework, the semiclassical D-branes are defined at the first order perturbation around the trajectory of the center-of-mass of a string. The set of equations the semiclassical D-branes must satisfy in a general strong gravitational field are given. These equations are solved in the AdS background where it is shown that a D-brane coherent state exists if the operators that project the string fields onto the corresponding Neumann and Dirichlet directions satisfy a set of algebraic constraints. A second set of equations that should be satisfied by the projectors in order that the semiclassical state be compatible with the global structure of the D-brane are derived in the particle limit of a string in the torsionless AdS background.
Subject
General Physics and Astronomy
Reference24 articles.
1. J. Polchinski, Phys. Rev. Lett. 75, 4724 (1995)
2. A. Sen, J. High Energy Phys. 9808, 012 (1998)
3. I. V. Vancea, Phys. Lett. B 487, 175 (2000)
4. J. Polchinski, String theory, Vol. 1, (Cambridge University Press, 1998)
5. P. Di Vecchia, A. Liccardo, NATO Advanced Study Institutes Series C: Mathematical and Physical Sciences 556, 1 (2000)