Exclusive $J/\psi$ Production in Diffractive Process with AdS/QCD   Holographic Wave Function in BLFQ

Ya-ping Xie; Xurong Chen

arXiv:1605.05859·hep-ph·May 25, 2016

Exclusive $J/\psi$ Production in Diffractive Process with AdS/QCD Holographic Wave Function in BLFQ

Ya-ping Xie, Xurong Chen

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TL;DR

This paper applies an AdS/QCD holographic wave function within the BLFQ framework to compute exclusive $J/ar{J}$ production in diffractive processes, showing good agreement with experimental data.

Contribution

It introduces the use of AdS/QCD holographic wave functions in BLFQ for vector mesons to predict diffractive $J/ar{J}$ production cross sections.

Findings

01

Predictions agree well with experimental data.

02

The holographic wave function effectively models the vector meson.

03

The approach enhances understanding of diffractive processes.

Abstract

The AdS/QCD holographic wave function of basis light-front quantization (BLFQ) for vector meson $J / ψ$ is applied in this manuscript. The exclusive production of $J / ψ$ in diffractive process is computed in dipole model with AdS/QCD holographic wave function. We use IP-Sat and IIM model in the calculation of the differential cross section of the dipole scattering off the proton. The prediction of AdS/QCD holographic wave function in BLFQ gives a good agreement to the experimental data.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · Black Holes and Theoretical Physics