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Main Authors: Feng, Qi-Chun, Hao, Yi-Bo, Zhou, Yue-Kai, Sun, Xu, Jiang, Yue, Zhang, Jing-Bo, Huo, Lei, Ren, Yan-Yu
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.01251
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author Feng, Qi-Chun
Hao, Yi-Bo
Zhou, Yue-Kai
Sun, Xu
Jiang, Yue
Zhang, Jing-Bo
Huo, Lei
Ren, Yan-Yu
author_facet Feng, Qi-Chun
Hao, Yi-Bo
Zhou, Yue-Kai
Sun, Xu
Jiang, Yue
Zhang, Jing-Bo
Huo, Lei
Ren, Yan-Yu
contents Conventional imaging of pion emission sources, conducted in the center-of-mass frame of individual pion pairs (CMFP), suffers from frame-dependent kinematic distortions that bias the reconstructed source morphology. This method introduces spurious correlations due to the relative boost between the CMFP and the true source rest frame (CMFS), leading to systematic image distortions with a pronounced non-Gaussian tail. We present a transformative approach by performing correlation analysis directly in the global source rest frame (CMFS), the physically meaningful reference frame of the collision fireball. This paradigm shift eliminates kinematic contamination inherent in conventional CMFP-based imaging. The resulting source image shows a dramatic suppression of the non-Gaussian artifact and achieves significantly better agreement with pristine model source functions. Our technique offers a more direct and uncontaminated probe of the intrinsic source geometry, overcoming the limitations of prior methods. It provides a clearer and more accurate determination of the spacetime properties of the nuclear collision fireball, marking a significant advancement in the field.
format Preprint
id arxiv_https___arxiv_org_abs_2511_01251
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Precision Imaging of the Pion Emission Source in Heavy-Ion Collisions via a Global Rest Frame Analysis
Feng, Qi-Chun
Hao, Yi-Bo
Zhou, Yue-Kai
Sun, Xu
Jiang, Yue
Zhang, Jing-Bo
Huo, Lei
Ren, Yan-Yu
High Energy Physics - Phenomenology
Conventional imaging of pion emission sources, conducted in the center-of-mass frame of individual pion pairs (CMFP), suffers from frame-dependent kinematic distortions that bias the reconstructed source morphology. This method introduces spurious correlations due to the relative boost between the CMFP and the true source rest frame (CMFS), leading to systematic image distortions with a pronounced non-Gaussian tail. We present a transformative approach by performing correlation analysis directly in the global source rest frame (CMFS), the physically meaningful reference frame of the collision fireball. This paradigm shift eliminates kinematic contamination inherent in conventional CMFP-based imaging. The resulting source image shows a dramatic suppression of the non-Gaussian artifact and achieves significantly better agreement with pristine model source functions. Our technique offers a more direct and uncontaminated probe of the intrinsic source geometry, overcoming the limitations of prior methods. It provides a clearer and more accurate determination of the spacetime properties of the nuclear collision fireball, marking a significant advancement in the field.
title Precision Imaging of the Pion Emission Source in Heavy-Ion Collisions via a Global Rest Frame Analysis
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2511.01251