Conformal perturbation theory for n-point functions: structure constant deformation
Conformal perturbation theory for n-point functions: structure constant deformation
We consider conformal perturbation theory for n-point functions on the sphere in general 2D CFTs to first order in coupling constant. We regulate perturbation integrals using canonical hard disk excisions of size ϵ around the fixed operator insertions, and identify the full set of counter terms which are sufficient to regulate all such integrated n-point functions. We further explore the integrated 4-point function which computes changes to the structure constants of the theory. Using an sl(2) map, the three fixed locations of operators are mapped to 0, 1, and ∞. We show that approximating the mapped excised regions to leading order in ϵ does not lead to the same perturbative shift to the structure constant as the exact in ϵ region. We explicitly compute the correction back to the exact in ϵ region of integration in terms of the CFT data. We consider the compact boson, and show that one must use the exact in ϵ region to obtain agreement with the exact results for structure constants in this theory.
Burrington, Benjamin A.
53ad8cb4-6dda-4ca0-a457-814301faec6f
Zadeh, Ida G.
f1a525ce-9b07-456b-a4f3-435434f833ae
13 June 2024
Burrington, Benjamin A.
53ad8cb4-6dda-4ca0-a457-814301faec6f
Zadeh, Ida G.
f1a525ce-9b07-456b-a4f3-435434f833ae
Burrington, Benjamin A. and Zadeh, Ida G.
(2024)
Conformal perturbation theory for n-point functions: structure constant deformation.
JHEP, 2024, [78].
(doi:10.1007/JHEP06(2024)078).
Abstract
We consider conformal perturbation theory for n-point functions on the sphere in general 2D CFTs to first order in coupling constant. We regulate perturbation integrals using canonical hard disk excisions of size ϵ around the fixed operator insertions, and identify the full set of counter terms which are sufficient to regulate all such integrated n-point functions. We further explore the integrated 4-point function which computes changes to the structure constants of the theory. Using an sl(2) map, the three fixed locations of operators are mapped to 0, 1, and ∞. We show that approximating the mapped excised regions to leading order in ϵ does not lead to the same perturbative shift to the structure constant as the exact in ϵ region. We explicitly compute the correction back to the exact in ϵ region of integration in terms of the CFT data. We consider the compact boson, and show that one must use the exact in ϵ region to obtain agreement with the exact results for structure constants in this theory.
Text
JHEP06(2024)078
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Accepted/In Press date: 10 May 2024
Published date: 13 June 2024
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Local EPrints ID: 502982
URI: http://eprints.soton.ac.uk/id/eprint/502982
ISSN: 1126-6708
PURE UUID: e1dcd28a-e578-4104-bf4f-3800606266ae
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Date deposited: 15 Jul 2025 16:53
Last modified: 22 Aug 2025 02:43
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Author:
Benjamin A. Burrington
Author:
Ida G. Zadeh
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