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Main Author: Mamo, Kiminad A.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.12037
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author Mamo, Kiminad A.
author_facet Mamo, Kiminad A.
contents Holographic QCD reproduces the leading short-distance vector-current two-point function in vacuum, fixing the bulk gauge coupling by matching the logarithmic $Q^2$ dependence of the boundary current correlator. We show that this vacuum matching extends to the off-forward hadronic current-current correlator relevant for DDVCS/DVCS. Starting from the fixed-$j$ $t$-channel Witten diagram, we derive a factorized holographic Compton amplitude whose ultraviolet photon vertex is universal and model independent, while all infrared sensitivity is isolated in hadronic conformal moments. In the conformal limit this upper vertex depends only on the pure-AdS bulk wave functions of the virtual photons and yields an exact Gauss hypergeometric kernel. In the collinear window and at a single matching scale $Q=μ=μ_0=μ_\ast$, this kernel matches exactly the $\pm$-basis Wilson coefficients of the singlet conformal operator product expansion in perturbative QCD. The channel dictionary is fixed dynamically: the closed-string branch matches the protected $(-)$ eigenchannel, while the open-string branch matches the unprotected $(+)$ eigenchannel, with the first physical even moment $j=2$ and the distinct $\sqrt{j-2}$ versus $\sqrt{j-1}$ branch points providing the sharpest anchor. The result is therefore an exact fixed-scale matching statement for the hadronic current-current correlator in the fixed-$j$ channel. It identifies the holographic DDVCS/DVCS amplitude as a hadronic generalization of the familiar vacuum current-correlator matching.
format Preprint
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle From Vacuum to Nucleon: Exact Fixed-Scale Matching of Holographic Current Correlators to QCD
Mamo, Kiminad A.
High Energy Physics - Theory
High Energy Physics - Phenomenology
Holographic QCD reproduces the leading short-distance vector-current two-point function in vacuum, fixing the bulk gauge coupling by matching the logarithmic $Q^2$ dependence of the boundary current correlator. We show that this vacuum matching extends to the off-forward hadronic current-current correlator relevant for DDVCS/DVCS. Starting from the fixed-$j$ $t$-channel Witten diagram, we derive a factorized holographic Compton amplitude whose ultraviolet photon vertex is universal and model independent, while all infrared sensitivity is isolated in hadronic conformal moments. In the conformal limit this upper vertex depends only on the pure-AdS bulk wave functions of the virtual photons and yields an exact Gauss hypergeometric kernel. In the collinear window and at a single matching scale $Q=μ=μ_0=μ_\ast$, this kernel matches exactly the $\pm$-basis Wilson coefficients of the singlet conformal operator product expansion in perturbative QCD. The channel dictionary is fixed dynamically: the closed-string branch matches the protected $(-)$ eigenchannel, while the open-string branch matches the unprotected $(+)$ eigenchannel, with the first physical even moment $j=2$ and the distinct $\sqrt{j-2}$ versus $\sqrt{j-1}$ branch points providing the sharpest anchor. The result is therefore an exact fixed-scale matching statement for the hadronic current-current correlator in the fixed-$j$ channel. It identifies the holographic DDVCS/DVCS amplitude as a hadronic generalization of the familiar vacuum current-correlator matching.
title From Vacuum to Nucleon: Exact Fixed-Scale Matching of Holographic Current Correlators to QCD
topic High Energy Physics - Theory
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2604.12037