Rolling Tachyon
Abstract
We discuss construction of classical time dependent solutions in open string (field) theory, describing the motion of the tachyon on unstable D-branes. Despite the fact that the string field theory action contains infinite number of time derivatives, and hence it is not a priori clear how to set up the initial value problem, the theory contains a family of time dependent solutions characterized by the initial position and velocity of the tachyon field. We write down the world-sheet action of the boundary conformal field theories associated with these solutions and study the corresponding boundary states. For D-branes in bosonic string theory, the energy momentum tensor of the system evolves asymptotically towards a finite limit if we push the tachyon in the direction in which the potential has a local minimum, but hits a singularity if we push it in the direction where the potential is unbounded from below.
Keywords
Cite
@article{arxiv.hep-th/0203211,
title = {Rolling Tachyon},
author = {Ashoke Sen},
journal= {arXiv preprint arXiv:hep-th/0203211},
year = {2009}
}
Comments
LaTeX file, 20 pages, references added