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Shape analysis of strongly-interacting systems: the heavy ion case

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arxiv 1104.5267 v1 pith:OTUV7J3V submitted 2011-04-27 nucl-th

Shape analysis of strongly-interacting systems: the heavy ion case

classification nucl-th
keywords shapecollisionsfinalsystemdependenceenergyexpandshadronic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Collisions between nuclei at ultrarelativistic energies produce a color-deconfined plasma that expands explosively and rapidly reverts to the color-confined (hadronic) state. In non-central collisions, the zone of hot matter is transversely anisotropic and may be "tilted" relative to the direction of the incoming beams. As the matter cools and expands into the vacuum, the evolution of the system shape depends sensitively on the dynamical response of the plasma under extreme conditions. Two-pion intensity interferometry performed relative to the impact parameter can be used to measure the approximate final shape of the system, when pions decouple from the system. We use several transport models to illustrate the dependence of the final shape on the QCD equation of state and late-stage hadronic rescattering. The dependence of the final shape on collision energy may reveal non-trivial structures in the QCD phase diagram. Indeed, the few measurements published to date show a tantalizing behaviour in an energy region under intense experimental and theoretical scrutiny, as signatures of a first-order phase transition may appear there. We discuss strong parallels between shape studies in heavy ion collisions and those in two other strongly-coupled systems.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Tilted geometry of the pion emission source in Au+Au collisions in the RHIC Beam Energy Scan

    nucl-ex 2026-05 unverdicted novelty 7.0

    The pion emission source in Au+Au collisions is tilted with magnitude decreasing rapidly as collision energy rises from 7.7 to 27 GeV, indicating departure from longitudinal boost invariance.

  2. Hadron polarization and equation of state at FAIR/RHIC-BES energies

    nucl-th 2026-06 unverdicted novelty 4.0

    Lambda polarization in low-energy heavy-ion collisions depends on the equation of state in UrQMD simulations and arises from shear in the baryon current due to stopping.