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Main Authors: Shao, Ding Yu, Shi, Yu, Zhang, Cheng, Zhou, Jian, Zhou, Ya-jin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.05465
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author Shao, Ding Yu
Shi, Yu
Zhang, Cheng
Zhou, Jian
Zhou, Ya-jin
author_facet Shao, Ding Yu
Shi, Yu
Zhang, Cheng
Zhou, Jian
Zhou, Ya-jin
contents We explore the impact of initial state soft gluon radiations on the azimuthal angle asymmetries in photo-production of hard di-jet via coherent diffraction in ultraperipheral heavy ion collisions, as well as in electron-proton ($ep$) and electron-nucleus ($eA$) collisions. The primary production mechanism is identified as the diffractive production of two hard jets, accompanied by a collinear gluon emission along the beam direction. In contrast, the diffractive exclusive di-jet production, where the initial state radiation is absent, is suppressed due to color transparency. Our analysis shows that azimuthal asymmetries, traditionally attributed to final state gluon emissions, are reduced by the presence of initial state radiations. The sensitivity of azimuthal asymmetries to both initial and final state radiations suggests that they could provide novel insights into the mechanisms of di-jet production in diffractive processes.
format Preprint
id arxiv_https___arxiv_org_abs_2402_05465
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Revisiting azimuthal angular asymmetries in diffractive di-jet production
Shao, Ding Yu
Shi, Yu
Zhang, Cheng
Zhou, Jian
Zhou, Ya-jin
High Energy Physics - Phenomenology
We explore the impact of initial state soft gluon radiations on the azimuthal angle asymmetries in photo-production of hard di-jet via coherent diffraction in ultraperipheral heavy ion collisions, as well as in electron-proton ($ep$) and electron-nucleus ($eA$) collisions. The primary production mechanism is identified as the diffractive production of two hard jets, accompanied by a collinear gluon emission along the beam direction. In contrast, the diffractive exclusive di-jet production, where the initial state radiation is absent, is suppressed due to color transparency. Our analysis shows that azimuthal asymmetries, traditionally attributed to final state gluon emissions, are reduced by the presence of initial state radiations. The sensitivity of azimuthal asymmetries to both initial and final state radiations suggests that they could provide novel insights into the mechanisms of di-jet production in diffractive processes.
title Revisiting azimuthal angular asymmetries in diffractive di-jet production
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2402.05465