Speaker
Carsten Greiner
(University of Frankfurt)
Description
Transport simulations like UrQMD allow to study the time evolution of a
pure non-equilibrated Hagedorn state gas towards a thermally
equilibrated Hadron Resonance Gas by using dynamics, which unlike
strings, fully respect detailed balance. In principle, our prescription
offers a genuine understanding for multi-hadronic collisions.
Propagation, repopulation, rescatterings and decays of Hagedorn states
provide the yields of all hadrons up to a mass of m=2.5 GeV. The quick
thermalization and chemicalization within t=1-2 fm\c of the emerging
Hadron Resonance Gas exposes Hagedorn states as a tool for a microscopic
hadronization.
| On behalf of collaboration: | None |
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Primary author
Carsten Greiner
(University of Frankfurt)
Co-authors
Prof.
Horst Stoecker
(University of Frankfurt)
Mr
Maxim Beitel
(University of Frankfurt)
