Hyperon Polarization in Heavy ion Collisions C. C. Barros Jr. Universidade Federal de Santa Catarina Brasil Strangeness in Quark Matter 2013 University.

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Hyperon Polarization in Heavy ion Collisions C. C. Barros Jr. Universidade Federal de Santa Catarina Brasil Strangeness in Quark Matter 2013 University of Birmingham

1976 – Bunce et al. (Phys. Rev. Lett. 36, 1113) 300 GeV A totally unexpected result – Polarization effects shoud vanish at High energies (theoretical and experimental expectative)

In the following years – many data for Y  and antihyperons (E761,...) And other...

Polarization in pA Collisions Hundreds of GeV Normal to the production plane Be,... Hyperon and antihyperon

Polarization in pA Collisions A very challenging problem. Many models: - OPER - Quark recombination - Lund strings - Constituent quark models... Explain the data, but there are problems, specially for the antihyperons (most of these models does not apply) Y. Hama, T. Kodama (1993) – Hydrodinamical elements+ optical potential – final state interactions

Collision Hot expanding Hadronic matter (final stage) Final particle interactions (and statistical fluctuations)

The Model - Hydrodynamical aspects + -Low energy  Y final-state interactions (the relative energy is small) -Most of the produced particles are pions – this is the dominant interaction (for baryons) -It is a indirect production mechanism

Low Energy  Y Interactions Few data for these interactoins Effective chiral lagrangians – a good choice (describe quite well  N and NN low energy interactions) Tree diagrams + sigma term (loop) Many intermediate particles considered (resonances, mesons...)

Low Energy  Y Interactions

10  Interaction

11 Some loops

12 Coupling Constants Sigma term results

13  interactions results - At low energies the cross Section is dominated by the  resonance. -Similar behavior for the other Hyperons

Low Energy  Y Interactions

15  Interaction

16  Interaction

17 Rapidity Distribuitions Produced pions (inside the fluid) Fluid

18 Rapidity distributions Data – W. Bell et al., Z Phys, C 27, 191 (1985)

19 Reactions

20 Final Polarization

21 Final Polarizations

22 dependence

AA Collisions STAR data (Abelev et al. 2007) – Global polarization Noncentral relativistic nucleus-nucleus collisions possesses large angular momentum Angular momentum of the system, L, is Defined normal to the reaction plane Reaction plane is determined by the beam direction and the impact parameter b

AA Collisions Some models are availabe (previous talks, for example) These system is a interesting place to apply the model BRHAMS pseudorapidity distributions are used to determine the fluid propreties and hydrodinamical parameters

25 Velocity distribution - Fluid Observed particles Distribution Particles inside the Fluid (pions) (longitudinal and transversal expansion)

26 RHIC It is possible to obtain quite well the parameters BRHAMS data 200 GeV Au-Au PHENIX data

27 Polarization STAR data – Abelev et al. Phys. Rev. C (2007) (the effect of final-state interactions) One more time shows that the results are consistent

LHC Perspectives

pA collisions? It could be possible to find a small polarization, in the production plane At the moment it is just a conjecture, the calculations are not ready yet...

Conclusions A model that works to produce polarization in pA collisions is considered (hydro+final-state interactions) Significant in “old” pA collisions Global Polarization is almost totally washed out in AA collisions – compatible with the RHIC data LHC pA collisions? Where to find? Normal to production plane at small angles (a possibility)