D-brane Decay in Two-Dimensional String Theory
摘要
We consider unstable D0-branes of two dimensional string theory, described by the boundary state of Zamolodchikov and Zamolodchikov [hep-th/0101152] multiplied by the Neumann boundary state for the time coordinate . In the dual description in terms of the matrix model, this D0-brane is described by a matrix eigenvalue on top of the upside down harmonic oscillator potential. As suggested by McGreevy and Verlinde [hep-th/0304224], an eigenvalue rolling down the potential describes D-brane decay. As the eigenvalue moves down the potential to the asymptotic region it can be described as a free relativistic fermion. Bosonizing this fermion we get a description of the state in terms of a coherent state of the tachyon field in the asymptotic region, up to a non-local linear field redefinition by an energy-dependent phase. This coherent state agrees with the exponential of the closed string one-point function on a disk with Sen's marginal boundary interaction for which describes D0-brane decay.
引用
@article{arxiv.hep-th/0305159,
title = {D-brane Decay in Two-Dimensional String Theory},
author = {Igor R. Klebanov and Juan Maldacena and Nathan Seiberg},
journal= {arXiv preprint arXiv:hep-th/0305159},
year = {2009}
}
备注
19 pages, harvmac, minor changes