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Closed Superstring Emission from Rolling Tachyon Backgrounds

High Energy Physics - Theory 2009-11-10 v1

Abstract

We compute the lowest components of the Type II Ramond-Ramond boundary state for the tachyon profile T(X)=λeX0/2T (X) = \lambda e ^{X ^ 0/\sqrt{2}} by direct path integral evaluation. The calculation is made possible by noting that the integrals involved in the requisite disk one-point functions reduce to integrals over the product group manifold U(n)×U(m)U (n)\times U (m). We further note that one-point functions of more general closed string operators in this background can also be related to U(n)×U(m)U (n)\times U (m) group integrals. Using this boundary state, we compute the closed string emission from a decaying unstable Dpp-brane of Type II string theory. We also discuss closed string emission from the tachyon profile T(X)=λcosh(X0/2)T (X) =\lambda\cosh (X ^ 0/\sqrt{2}). We find in both cases that the total number of particles produced diverges for p=0p = 0, while the energy radiated into closed string modes diverges for p2p\leq 2, in precise analogy to the bosonic case.

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Cite

@article{arxiv.hep-th/0411040,
  title  = {Closed Superstring Emission from Rolling Tachyon Backgrounds},
  author = {Jessie Shelton},
  journal= {arXiv preprint arXiv:hep-th/0411040},
  year   = {2009}
}

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23 pages