施梳苏 华中师范大学
DESCRIPTION
Observation of an Energy Dependent Difference in Elliptic Flow between Particle and Antiparticles in RHIC. 晨光杯. 施梳苏 华中师范大学. Outline. Introduction and Motivation STAR detector and Data analysis Results and Discussions v 2 method comparison Energy dependence - PowerPoint PPT PresentationTRANSCRIPT
1 中国物理学会高能物理分会第九届全国会员代表大会暨学术年会
Observation of an Energy Dependent Difference in Elliptic Flow between Particle and Antiparticles in RHIC
施梳苏华中师范大学
晨光杯
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Introduction and Motivation
STAR detector and Data analysis
Results and Discussions v2 method comparison Energy dependence v2 of particles and anti-particles NCQ scaling test
Summary
Outline
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BES Motivations • Search for critical point• Search for phase boundary Number of Constituent Quark scaling on v2
partonic vs. hadronic degree of freedom (dof)
IntroductionThe RHIC Beam Energy Scan (BES)
STAR: PRL99, 112301 (2007) NPA830:187c-190c(2009) PHENIX: PRL98, 162301 (2007)
Data Collected in 2010:7.7 GeV11.5 GeV39 GeV
Data Collected in 2011:19.6 GeV27 GeV
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Energy Dependence of NCQ ScalingAMPT model results:Scaling in v2: partonic dof dominant; No scaling in v2 : hadronic dof dominant=>A tool to search for the possible phase boundary!
The beam energydependence of the partonic cross sections will not affect the v2 scaling argument.=>Important for Beam Energy Scan program.
F. Liu, K.J. Wu, and N. Xu: J. Phys. G 37 094029(2010)
Partonic Hadronic
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Large acceptanceTPC: Full azimuthal coverage, (|η|<1.0)
dE/dx PID: pion/kaon: pT ~ 0.6 GeV/c; proton pT ~ 1.0 GeV/cWith full TOF system since 2010pion/kaon: pT ~ 1.6 GeV/c; proton pT ~ 3.0 GeV/cStrange hadrons (KS
0, Λ, ϕ, Ξ, Ω) reconstructed by the decay topology
STAR Detectors
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Particle Identification
Energy loss (dE/dx) + TOF: charged pion, kaon and proton Decay topology: KS
0, Λ, ϕ, Ξ, Ω
Au+Au@39
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Method Comparison
v2 method• Event Plane method TPC EP (|η|<1.0) FTPC EP (2.5<|η|<4.0) BBC EP (3.8<|η|<5.2)
• Cumulant method v2{2}, v2{4}
• Different methods show different sensitivity to non-flow and fluctuations The difference between v2{2} and v2{4} decreases with decrease in beam energy • non-flow and fluctuations
20-30% Au+Au
STAR: Phys. Rev. C 86, 054908 (2012)
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v2{4} results• Three centrality bins Consistent v2(pT) from 7.7 GeV to 2.76 TeV for pT > 2 GeV/c pT< 2GeV/c• The v2 values
rise with increasing collision energy -> Large collectivity? Particle composition?
ALICE data: Phys. Rev. Lett. 105, 252302 (2010)STAR: Phys. Rev. C 86, 054908 (2012)
Energy Dependence
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π+ (K+) vs. π- (K-)
v2(π-) > v2(π+) and v2(K+)>v2(K-) in Au + Au collisions at 7.7 and 11.5 GeV Almost same magnitude of v2 at 19.6, 27, 39 and 62.4 GeV
STAR: Phys. Rev. Lett. 110, 142301(2013)Phys. Rev. C 88, 014902 (2013)
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p (Λ) vs. Anti-p (Λ)
v2(p) > v2(anti-p) at all energies, The difference is increasing as beam energydecreasing
Similar trend observed for Λ and anti-Λ
STAR: Phys. Rev. Lett. 110, 142301(2013)Phys. Rev. C 88, 014902 (2013)
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Particles vs. Anti-particles
Beam energy ≥ 39 GeV• Δv2 for baryon and anti-baryon within 10%• Almost no difference for meson Beam energy < 39 GeV• The difference of baryon and
anti-baryon v2
→ Increasing with decrease of beam energy
• v2(K+)>v2(K-) at 7.7-19.6 GeV• v2(π-) >v2(π+) at 7.7-19.6 GeV Δv2 is linearly increasing with
μB Possible explanation• Baryon transport to mid-rapidity?
ref: J. Dunlop et al., PRC 84, 044914 (2011)
• Hadronic potential? ref: J. Xu et al., PRC 85, 041901 (2012)The difference between particles and anti-particles is observed
STAR: Phys. Rev. Lett. 110, 142301(2013)Phys. Rev. C 88, 014902 (2013)
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NCQ Scaling Test: mT - m
Ref: B. Mohanty and N. Xu: J. Phys. G 36, 064022(2009)
Universal trend for most of particles and the corresponding anti-particles φ meson v2 deviates from other particles ~ 2σ at the highest pT data in
7.7 and 11.5 GeV collisions Small or zero v2 for ϕ meson -> without formation of partonic matterHadronic interactions might be dominant when √sNN ≤ 11.5 GeV
STAR: Phys. Rev. Lett. 110, 142301(2013)Phys. Rev. C 88, 014902 (2013)
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Charged hadrons The v2{4} values for fixed pT rise with increasing collision energy for pT< 2 GeV/c
-> Larger collectivity? Particle composition? Consistent v2{4}(pT) from 7.7 GeV to 2.76 TeV for pT > 2 GeV/c
The difference between particles and anti-particles increases with decrease of beam energy NCQ scaling broken between particles and anti-particles ϕ meson deviates the trend of other particles ~2σ at the
highest pT data in 7.7 and 11.5 GeV collisions
Hadronic interactions is dominant at lower energies
Summary