Presentation is loading. Please wait.

Presentation is loading. Please wait.

SQM2003March 13Zi-wei Lin The Ohio State University ● Why transport model? ● Space-time (x-t) correlation: its effect on R out/ R side Extract radii from.

Published byIrene Jones Modified over 7 years ago

Similar presentations

Presentation on theme: "SQM2003March 13Zi-wei Lin The Ohio State University ● Why transport model? ● Space-time (x-t) correlation: its effect on R out/ R side Extract radii from."— Presentation transcript:

1 SQM2003March 13Zi-wei Lin The Ohio State University ● Why transport model? ● Space-time (x-t) correlation: its effect on R out/ R side Extract radii from 1) emission function S(x,K) 2) Gaussian fits to 3-d C(Q,K) non-Gaussian emission source ● Summary and Outlook Zi-wei Lin The Ohio State University in collaboration with C.M. Ko Kaon HBT at RHIC from AMPT Model

2 SQM2003March 13Zi-wei Lin The Ohio State University R out/ R side ~1 up to Kt~1GeV from S. Johnson at RWW02 ● Inconsistent with the hydro model. ● Puzzling considering the “common” relations:

3 SQM2003March 13Zi-wei Lin The Ohio State University Why transport model? ● HBT probes the space-time information of particles at freezeout ● In transport models, hadrons freeze out dynamically (both chemical and kinetic freezeout), when mean-free-path is too large: Transport models may have some advantages to address HBT

4 SQM2003March 13Zi-wei Lin The Ohio State University HIJING energy in strings and minijet partons ZPC (Zhang's Parton Cascade) till parton freezeout ART (A Relativistic Transport model for hadrons) A+A Strong-decay resonances for final particle spectra A Multi-Phase Transport (AMPT) model with String Melting Fragment excited strings into quarks and antiquarks (via Lund frag. to hadrons) Nearest quark coalescence to hadrons Z.W.L. &C.M.Ko,PRC65

5 SQM2003March 13Zi-wei Lin The Ohio State University An central Au+Au event at 130AGeV from AMPT model (no string melting here)

6 SQM2003March 13Zi-wei Lin The Ohio State University Definitions: in the Pratt-Bertsch out-side-long system x i (1-3)= x out, x side, x long q i (1-3)=Q out, Q side, Q long => R inv 2 => R out, R side, R long Pratt, PRD33 Pratt et al,PRC42 Bertsch et al,PRC37

7 SQM2003March 13Zi-wei Lin The Ohio State University Method 1 to extract radii: From emission function S(x,K): curvature at q=0 Pratt,PRL84 Wiedemann,PRC57 Dx,y= -.

8 SQM2003March 13Zi-wei Lin The Ohio State University out-side out-t Emission function (at freezeout): positive x out -t correlation K: 200<pt<400 MeV -1<y<1

9 SQM2003March 13Zi-wei Lin The Ohio State University (3.4fm)^2 = (35 - 2 * 22 + 20) fm^2 from the emission function: Spatial-size x out -t correlation duration-time part K: 200<pt<400 MeV -1<y<1  is positive and large  reduces R out and R out /R side  Complicates the extraction of the duration time from Mangnitude of the x out -t correlation

10 SQM2003March 13Zi-wei Lin The Ohio State University out-side out-t also positive and large, reduces R out /R side (17fm)^2 = (185 - 2*168 + 431) fm^2 pi: 125<pt<225 MeV -1<y<1 Similar to the pion case: Z.W.L.,C.M.Ko&S.Pal,PRL89 from the emission function:

11 SQM2003March 13Zi-wei Lin The Ohio State University Experimentally, from 4-parameters Gaussian fits of C(q) (w/o Coulomb effects): Pratt,PRL84. Method 2 to extract radii: If source is Gaussian in space-time, then: and Method1= Method2 BUT if source is non-Gaussian in space-time: e.g., see D.Hardtke&S.Voloshin, PRC61 Method1= Method2

12 SQM2003March 13Zi-wei Lin The Ohio State University source radii vs fitted radii Difference is up to 30%  decays are not included in source radii) Source radii are much larger if  decays are included. Fitted radii should be used for fair comparison with data, as source radii suffer from non-Gaussian source

13 SQM2003March 13Zi-wei Lin The Ohio State University R out/ R side from the 2 methods:

14 SQM2003March 13Zi-wei Lin The Ohio State University ● x out -t correlation from emission function from AMPT model:  is large & positive  tends to reduce R out and R out/ R side  complicates the extraction of emission duration time  same for pions ● Radius parameters extracted from 2 methods: 1) from spatial correlation of the emission source 2) from Gaussian fits to 3-d C(Q)  difference is up to 30% for K (even when  decays are not included)  2) should be used for comparison with data Summary

15 SQM2003March 13Zi-wei Lin The Ohio State University 1) Need parton subdivision to avoid causality violation 2) Current approach in AMPT model with string melting: partons coalesce when they freezeout in parton cascade  local density at hadronization controled by  p (cross section)  local density is directly related with collective flow (v2,...)  investigate coalescence when local energy density < critical value 3) Resonance abundances (K*,  ) from quark coalescence need further study (at least constrained by data) for quantitative statements 4) Investigate the origin of the large & positive x out -t correlation Outlook

Download ppt "SQM2003March 13Zi-wei Lin The Ohio State University ● Why transport model? ● Space-time (x-t) correlation: its effect on R out/ R side Extract radii from."

Similar presentations

Zi-Wei Lin (ECU) 28th WWND, Puerto Rico April 10, 2012 1 Update of Initial Conditions in A Multiple Phase Transport (AMPT) Model Zi-Wei Lin Department.

Zi-Wei Lin (ECU) 28th WWND, Puerto Rico April 10, Update of Initial Conditions in A Multiple Phase Transport (AMPT) Model Zi-Wei Lin Department.
Detailed HBT measurement with respect to Event plane and collision energy in Au+Au collisions Takafumi Niida for the PHENIX Collaboration University of.

Detailed HBT measurement with respect to Event plane and collision energy in Au+Au collisions Takafumi Niida for the PHENIX Collaboration University of.
Recombination for JET Shower MC: Status and Discussion Rainer Fries Texas A&M University JET NLO & MC Meeting Wayne State University, August 23, 2013 On.

Recombination for JET Shower MC: Status and Discussion Rainer Fries Texas A&M University JET NLO & MC Meeting Wayne State University, August 23, 2013 On.
Quantum Opacity, RHIC HBT Puzzle, and the Chiral Phase Transition RHIC Physics, HBT and RHIC HBT Puzzle Quantum mech. treatment of optical potential, U.

Quantum Opacity, RHIC HBT Puzzle, and the Chiral Phase Transition RHIC Physics, HBT and RHIC HBT Puzzle Quantum mech. treatment of optical potential, U.
1 Heavy Ion Collisions at LHC in a Multiphase Transport Model  A multi-phase transport (AMPT) model  Rapidity and transverse momentum distributions 

1 Heavy Ion Collisions at LHC in a Multiphase Transport Model  A multi-phase transport (AMPT) model  Rapidity and transverse momentum distributions 
Phase transition of hadronic matter in a non-equilibrium approach Graduate Days, Frankfurt, 18.06.08, Hannah Petersen, Universität Frankfurt.

Phase transition of hadronic matter in a non-equilibrium approach Graduate Days, Frankfurt, , Hannah Petersen, Universität Frankfurt.
First Results From a Hydro + Boltzmann Hybrid Approach DPG-Tagung, Darmstadt, 10.03.08, Hannah Petersen, Universität Frankfurt.

First Results From a Hydro + Boltzmann Hybrid Approach DPG-Tagung, Darmstadt, , Hannah Petersen, Universität Frankfurt.
Forward-Backward Correlations in Relativistic Heavy Ion Collisions Aaron Swindell, Morehouse College REU 2006: Cyclotron Institute, Texas A&M University.

Forward-Backward Correlations in Relativistic Heavy Ion Collisions Aaron Swindell, Morehouse College REU 2006: Cyclotron Institute, Texas A&M University.
Forward-Backward Correlations in Heavy Ion Collisions Aaron Swindell, Morehouse College REU Cyclotron 2006, Texas A&M University Advisor: Dr. Che-Ming.

Forward-Backward Correlations in Heavy Ion Collisions Aaron Swindell, Morehouse College REU Cyclotron 2006, Texas A&M University Advisor: Dr. Che-Ming.
1 Systematic studies of freeze-out source size in relativistic heavy-ion collisions by RHIC-PHENIX Akitomo Enokizono Lawrence Livermore National Laboratory.

1 Systematic studies of freeze-out source size in relativistic heavy-ion collisions by RHIC-PHENIX Akitomo Enokizono Lawrence Livermore National Laboratory.
1 Isotropization of an equilibrating Quark-Gluon Plasma Bin Zhang a, Lie-Wen Chen b, Che-Ming Ko c a Arkansas State University, b Shanghai Jiaotong University,

1 Isotropization of an equilibrating Quark-Gluon Plasma Bin Zhang a, Lie-Wen Chen b, Che-Ming Ko c a Arkansas State University, b Shanghai Jiaotong University,
CCAST Summer School August 24-27 2002 Beijing 林子威 Partonic Cascade and Hadronic Evolution Dynamics in AMPT 林子威 (Zi-wei Lin) Texas A&M University in collaboration.

CCAST Summer School August Beijing 林子威 Partonic Cascade and Hadronic Evolution Dynamics in AMPT 林子威 (Zi-wei Lin) Texas A&M University in collaboration.
Recent Results from STAR Rene Bellwied, Wayne State, for the STAR Collaboration  Thermalization & Timescales  High pt physics  Fluctuations  130 to.

Recent Results from STAR Rene Bellwied, Wayne State, for the STAR Collaboration  Thermalization & Timescales  High pt physics  Fluctuations  130 to.
5-12 April 2008 Winter Workshop on Nuclear Dynamics STAR Particle production at RHIC Aneta Iordanova for the STAR collaboration.

5-12 April 2008 Winter Workshop on Nuclear Dynamics STAR Particle production at RHIC Aneta Iordanova for the STAR collaboration.
Resonance Dynamics in Heavy Ion Collisions 22nd Winter Workshop on Nuclear Dynamics 17.03.2006, La Jolla, California Sascha Vogel, Marcus Bleicher UrQMD.

Resonance Dynamics in Heavy Ion Collisions 22nd Winter Workshop on Nuclear Dynamics , La Jolla, California Sascha Vogel, Marcus Bleicher UrQMD.
Collision system dependence of 3-D Gaussian source size measured by RHIC-PHENIX Akitomo Enokizono Lawrence Livermore National Laboratory 23 rd Winter Workshop.

Collision system dependence of 3-D Gaussian source size measured by RHIC-PHENIX Akitomo Enokizono Lawrence Livermore National Laboratory 23 rd Winter Workshop.
1 Searching for the QGP at RHIC Che-Ming Ko Texas A&M University  Signatures of QGP  Quark coalescence Baryon/meson ratio Hadron elliptic flows and quark.

1 Searching for the QGP at RHIC Che-Ming Ko Texas A&M University  Signatures of QGP  Quark coalescence Baryon/meson ratio Hadron elliptic flows and quark.
WPCF07, Sonoma, California, August 2 20071 Observation of Extended Pion Sources in Relativistic Heavy Ion Collisions: extraction of source breakup time.

WPCF07, Sonoma, California, August Observation of Extended Pion Sources in Relativistic Heavy Ion Collisions: extraction of source breakup time.
High p T identified hadron anisotropic flow and Deuteron production in 200 GeV Au+Au Collisions Shengli Huang Vanderbilt University for the PHENIX Collaboration.

High p T identified hadron anisotropic flow and Deuteron production in 200 GeV Au+Au Collisions Shengli Huang Vanderbilt University for the PHENIX Collaboration.
Uncertainties in jet event generators due to hadronizaton scheme, Other issues with energy loss on E-by-E hydro, and the extraction of transport coefficients.

Uncertainties in jet event generators due to hadronizaton scheme, Other issues with energy loss on E-by-E hydro, and the extraction of transport coefficients.

Similar presentations

Ads by Google