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Simple Perturbatively Traversable Wormholes from Bulk Fermions

High Energy Physics - Theory 2019-11-15 v2 General Relativity and Quantum Cosmology

Abstract

A new class of traversable wormholes was recently constructed which relies only on local bulk dynamics rather than an explicit coupling between distinct boundaries. Here we begin with a four-dimensional Weyl fermion field of any mass mm propagating on a classical background defined by a Z2{\mathbb Z}_2 quotient of (rotating) BTZ ×S1\times \, S^1. This setup allows one to compute the fermion stress-energy tensor exactly. For appropriate boundary conditions around a non-contractible curve, perturbative back-reaction at any mm renders the associated wormhole traversable and suggests it can become eternally traversable at the limit where the background becomes extremal. A key technical step is the proper formulation of the method of images for fermions in curved spacetime. We find the stress-energy of spinor fields to have important kinematic differences from that of scalar fields, typically causing the sign of the integrated null stress-energy (and thus in many cases the sign of the time delay/advance) to vary around the throat of the wormhole. Similar effects may arise for higher-spin fields.

Keywords

Cite

@article{arxiv.1908.03998,
  title  = {Simple Perturbatively Traversable Wormholes from Bulk Fermions},
  author = {Donald Marolf and Sean McBride},
  journal= {arXiv preprint arXiv:1908.03998},
  year   = {2019}
}

Comments

30 pages, 5 figures

R2 v1 2026-06-23T10:44:51.612Z