文摘
英文文摘
声明
CHAPTER 1 Introduction
CHAPTER 2 Relativistic Heavy Ion Collisions
2.1 Experimental observations
2.1.1 Hard probes
2.1.2 Collective flow
2.1.3 Correlations
2.2 Models
CHAPTER 3 Experimental Set-up
3.1 RHIC
3.2 The STAR Experiment
3.2.1 STAR TPC
3.2.2 STAR FTPCs
CHAPTER 4 Analysis Method
4.1 Event and track selection
4.2 Particle Identification
4.3 KOS and (∧) Reconstruction
4.4 Standard event plane method
4.4.1 Fourier expansion
4.4.2 Event plane determination
4.4.3 Detector effect
4.5 Invariant Mass Method
4.6 Cumulant Method
4.6.1 Integral υ2
4.6.2 Differential υ2
4.7 Mixed Harmonics method
CHAPTER 5 Results Ⅰ: Azimuthal anisotropy
5.1 The 2nd order anisotropic flow υ2
5.1.1 Centrality dependence and non-flow effect
5.1.2 Particle species dependence
5.1.3 Number of constituent quark scaling of υ2
5.2 The 4th order anisotropic flow υ4
5.2.1 Centrality dependence and non-flow effect
5.2.2 Particle species dependence
5.2.3 Number of constituent quark scaling of υ4
5.3 Comparison with ideal hydrodynamic
5.4 Summary
CHAPTER 6 Results Ⅱ: Longitudinal property of Charge Balance Function
6.1 Boost invariance of charge balance function
6.1.1 Hadron-hardon collisions
6.1.2 Nucleus-nucleus collisions
6.1.3 Transverse momentum dependence
6.1.4 Centrality dependence
6.1.5 Model investigation
6.2 The width of charge balance function and delay hadronization
6.2.1 Multiplicity dependence
6.2.2 Energy Dependence
6.2.3 Transverse momentum and centrality dependencies
6.3 The relation with charge correlation and fluctuation
6.4 Summary
CHAPTER 7 Outlook
7.0.1 Test thermalization
7.0.2 Beam energy scan
References
Presentations and publication List
Acknowledgments