Anisotropic Flow of light (anti-)(hyper-)nuclei in Pb+Pb Collision at $\sqrt{s_{NN}}=5.36$ TeV

Fu Ma; Zheng-Qing Wang; Xiong-Hong He; Che Ming Ko; Qi-Ye Shou; Kai-Jia Sun; Wenbin Zhao; and Wen-Hao Zhou

arXiv:2604.04075·nucl-th·April 7, 2026

Anisotropic Flow of light (anti-)(hyper-)nuclei in Pb+Pb Collision at $\sqrt{s_{NN}}=5.36$ TeV

Fu Ma, Zheng-Qing Wang, Xiong-Hong He, Che Ming Ko, Qi-Ye Shou, Kai-Jia Sun, Wenbin Zhao, and Wen-Hao Zhou

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Abstract

Using the coalescence model with nucleon phase-space distributions generated by the hybrid MUSIC framework, we study the elliptic flow ( $v_{2}$ ) and triangular flow ( $v_{3}$ ) of (anti-)protons, (anti-)deuterons, (anti-) $^{3} He$ , and $_{Λ}^{3} H$ in Pb+Pb collisions at $s_{N N} = 5.36$ TeV. We find that the simple $v_{2}$ scaling with the number of constituent nucleons $A$ breaks down at high transverse momentum $p_{T} / A > 1.5$ GeV/ $c$ , while an improved scaling relation holds well up to $p_{T} / A \approx 3$ GeV/ $c$ . In contrast, $v_{3}$ exhibits similar behavior under both scaling prescriptions, with no significant difference. We also make predictions for $v_{2}$ and $v_{3}$ of the hypertriton and find these flows are insensitive to the Lambda-deuteron ( $Λ - d$ ) distance inside the hypertriton. Our results are compared with preliminary experimental measurements by the ALICE…

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