Polarization and Vortex Rings in Heavy-Ion Collisions at NICA Energies

We review recent studies of vortical motion and the resulting polarization of Λ hyperons in heavy-ion collisions at NICA energies, in particular, within the model of three-fluid dynamics (3FD). This includes predictions of the global Λ polarization and ring structures that appear in Au+Au collisions...

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Veröffentlicht in:	Particles 2023-02, Vol.6 (1)
Hauptverfasser:	Ivanov, Yuri B, Soldatov, Alexei A
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Sprache:	eng
Schlagworte:	Heavy ion collisions Polarization (Nuclear physics) Vortex-motion
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description	We review recent studies of vortical motion and the resulting polarization of Λ hyperons in heavy-ion collisions at NICA energies, in particular, within the model of three-fluid dynamics (3FD). This includes predictions of the global Λ polarization and ring structures that appear in Au+Au collisions. The global Λ polarization in Au+Au collisions is calculated, including its rapidity and centrality dependence. The contributions of the thermal vorticity and meson-field term (proposed by Csernai, Kapusta, and Welle) to the global polarization are considered. The results are compared with data from recent STAR and HADES experiments. It is predicted that the polarization maximum is reached at [square root of s[sub.NN] ]≈ 3 GeV if the measurements are performed with the same acceptance. It is demonstrated that a pair of vortex rings are formed, one at forward rapidities and another at backward rapidities, in ultra-central Au+Au collisions at [square root of s[sub.NN] ]> 4 GeV. The vortex rings carry information about the early stage of the collision, in particular, the stopping of baryons. It is shown that these rings can be detected by measuring the ring observable R[sub.Λ] , even in the midrapidity region at [square root of s[sub.NN] ]= 5–20 GeV. At forward/backward rapidities, the R[sub.Λ] signal is expected to be stronger. The possibility of observing the vortex-ring signal against the background of non-collective transverse polarization is discussed.
doi_str_mv	10.3390/particles6010014
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This includes predictions of the global Λ polarization and ring structures that appear in Au+Au collisions. The global Λ polarization in Au+Au collisions is calculated, including its rapidity and centrality dependence. The contributions of the thermal vorticity and meson-field term (proposed by Csernai, Kapusta, and Welle) to the global polarization are considered. The results are compared with data from recent STAR and HADES experiments. It is predicted that the polarization maximum is reached at [square root of s[sub.NN] ]≈ 3 GeV if the measurements are performed with the same acceptance. It is demonstrated that a pair of vortex rings are formed, one at forward rapidities and another at backward rapidities, in ultra-central Au+Au collisions at [square root of s[sub.NN] ]> 4 GeV. The vortex rings carry information about the early stage of the collision, in particular, the stopping of baryons. It is shown that these rings can be detected by measuring the ring observable R[sub.Λ] , even in the midrapidity region at [square root of s[sub.NN] ]= 5–20 GeV. At forward/backward rapidities, the R[sub.Λ] signal is expected to be stronger. 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subjects	Heavy ion collisions Polarization (Nuclear physics) Vortex-motion
title	Polarization and Vortex Rings in Heavy-Ion Collisions at NICA Energies
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