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System dependence of away-side broadening and α-clustering light nuclei structure effect in dihadron azimuthal correlations

Yuan-Zhe Wang, Song Zhang, Y. G.

2022Physics Letters B28 citationsDOIOpen Access PDF

Abstract

A collision system scan involving α-clustered 12C and 16O is studied by using a multiphase transport model for central collisions at sNN=6.37 TeV. Background subtracted away-side dihadron azimuthal correlation is performed via the zero yield at minimum (ZYAM) method from raw signals, and the quantitative parameters, such as RMS width and Kurtosis, seem nicely follow the A−1/3 law of the system size if the nucleus has the normal Woods-Saxon nucleon distribution. However, for α-clustering light nuclei, specifically for 12C and 16O, the RMS width and Kurtosis of away-side azimuthal correlation are deviated from the baseline of A−1/3 law. In addition, the momentum dependence of away-side broadening parameters is also presented. The results show that there is a distinction in away-side broadening parameters of dihadron correlation function between the Woods-Saxon distribution and the α-clustered structures, which sheds light on that the collision system scan for dihadron azimuthal correlation as a potential probe to distinguish α-clustered nuclei.

Topics & Concepts

PhysicsKurtosisAzimuthCorrelation function (quantum field theory)Distribution (mathematics)Momentum (technical analysis)Nuclear physicsCluster analysisComputational physicsOpticsQuantum mechanicsMathematical analysisStatisticsMathematicsFinanceEconomicsDielectricHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studies
System dependence of away-side broadening and α-clustering light nuclei structure effect in dihadron azimuthal correlations | Litcius