English

Scattering off Chamblin-Reall Branes

High Energy Physics - Theory 2026-05-15 v1 General Relativity and Quantum Cosmology

Abstract

We study the linearized scattering of dilaton-graviton waves from a thin brane in three-dimensional spacetime. Holographically, the setup models scattering from an interface in a family of strongly coupled theories related to dimensional reductions of higher-dimensional AdSd+2AdS_{d+2} gravity. Unlike the pure AdS3AdS_3 case, for d>1d>1 the physical bulk mode allows incident radiation to be redistributed into reflected, transmitted, and evanescent components. For the d=2d=2 background, we obtain a controlled solution in which the interface acts like a rough translucent window, producing diffuse angular scattering and absorption into surface modes. From the dual perspective, the scattering process is suggestive of dissipative flow toward the infrared. For d=4d=4, the same analysis reveals a sensitivity to the infrared boundary condition, suggesting that the singular zero-temperature geometry must be regulated in order to have a well-defined scattering process. The structure of the equations nevertheless suggests that a regulated d=4d=4 problem may exhibit the same qualitative redistribution of incident flux.

Keywords

Cite

@article{arxiv.2605.14580,
  title  = {Scattering off Chamblin-Reall Branes},
  author = {Dongsheng Ge and Christopher P. Herzog},
  journal= {arXiv preprint arXiv:2605.14580},
  year   = {2026}
}

Comments

31 pages + 4 appendices, 3 figures