Bulk-to-bulk photon propagator in AdS
Bulk-to-bulk photon propagator in AdS
We study the photon bulk-to-bulk propagator in AdS in various gauges, including axial, Coulomb, and the standard covariant gauge. We compute the propagator using both momentum and position space techniques. We ensure the propagators obtained obey the right subsidiary conditions arising from gauge invariance. In particular, BRST invariance implies a relation between the longitudinal components of the gauge field propagator and the ghost bulk-to-bulk propagator. Our method relies on decomposing the components of the propagator in terms of independent tensor structures and solving for the form factors. We recover some previously existing results and obtain new expressions for the propagator in other gauges. The propagator in axial and Coulomb gauge is simpler in momentum space, as momentum space makes manisfest the translational invariance in
the boundary directions, while the position space expression is the simplest in the covariant Fried-Yennie gauge. In this gauge the propagator has an improved IR behavior, somewhat analogous to the UV improved behavior associated with the Landau gauge in flat space. The results readily extend to Yang-Mills fields.
AdS-CFT Correspondence, BRST Quantization
Skenderis, Kostas
09f32871-ffb1-4f4a-83bc-df05f4d17a09
Moga, Radu-Nicolae
a01a73d5-d81a-41b4-b617-2aa07346010d
18 May 2026
Skenderis, Kostas
09f32871-ffb1-4f4a-83bc-df05f4d17a09
Moga, Radu-Nicolae
a01a73d5-d81a-41b4-b617-2aa07346010d
Skenderis, Kostas and Moga, Radu-Nicolae
(2026)
Bulk-to-bulk photon propagator in AdS.
Journal of High Energy Physics, 2026 (5), [205].
(doi:10.1007/JHEP05(2026)205).
Abstract
We study the photon bulk-to-bulk propagator in AdS in various gauges, including axial, Coulomb, and the standard covariant gauge. We compute the propagator using both momentum and position space techniques. We ensure the propagators obtained obey the right subsidiary conditions arising from gauge invariance. In particular, BRST invariance implies a relation between the longitudinal components of the gauge field propagator and the ghost bulk-to-bulk propagator. Our method relies on decomposing the components of the propagator in terms of independent tensor structures and solving for the form factors. We recover some previously existing results and obtain new expressions for the propagator in other gauges. The propagator in axial and Coulomb gauge is simpler in momentum space, as momentum space makes manisfest the translational invariance in
the boundary directions, while the position space expression is the simplest in the covariant Fried-Yennie gauge. In this gauge the propagator has an improved IR behavior, somewhat analogous to the UV improved behavior associated with the Landau gauge in flat space. The results readily extend to Yang-Mills fields.
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Bulk_to_bulk_photon_propagator_in_AdS__Paper_submission_file_
- Accepted Manuscript
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Accepted/In Press date: 1 April 2026
Published date: 18 May 2026
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Publisher Copyright:
© The Author(s) 2026.
Keywords:
AdS-CFT Correspondence, BRST Quantization
Identifiers
Local EPrints ID: 511806
URI: http://eprints.soton.ac.uk/id/eprint/511806
ISSN: 1126-6708
PURE UUID: 9e815a6b-42fa-4a71-bbbc-977d9f381699
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Date deposited: 03 Jun 2026 16:46
Last modified: 04 Jun 2026 01:46
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Author:
Radu-Nicolae Moga
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