Strangeness in Quark Matter 2016

Name: Strangeness in Quark Matter 2016
Start: 2016-06-26T15:00:00-07:00
End: 2016-07-01T18:00:00-07:00
Location: UC Berkeley

27 June 2016 to 1 July 2016

UC Berkeley

US/Pacific timezone

Email SQM 2016

Fast Dynamical Evolution of Hadron Resonance Gas via Hagedorn States

28 Jun 2016, 17:20

20m

102 (Clark Kerr Campus)

102

Clark Kerr Campus

Contributed Talk QCD Phase Diagram

Carsten Greiner (University of Frankfurt)

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

Carsten Greiner (University of Frankfurt)

Prof. Horst Stoecker (University of Frankfurt) Mr Maxim Beitel (University of Frankfurt)

SQM2016_greiner.pdf

main_v2.pdf

Strangeness in Quark Matter 2016

Email SQM 2016

Fast Dynamical Evolution of Hadron Resonance Gas via Hagedorn States

102

Clark Kerr Campus

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Strangeness in Quark Matter 2016

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